Inbred corn plant RQAA8 and seeds thereof

ABSTRACT

According to the invention, there is provided inbred corn plant RQAA8. This invention thus relates to the plants, seeds and tissue cultures of the fore-mentioned inbred corn plant and to methods for producing a corn plant produced by crossing one of the inbred plants with itself or with another corn plant, such as another inbred. This invention further relates to corn seeds and plants produced by crossing inbred plant RQAA8 with another corn plant, such as another inbred, and to crosses with related species. This invention further relates to the inbred and hybrid genetic complements of the inbred corn plant RQAA8, and also to the RFLP and genetic isozyme typing profiles of inbred corn plant RQAA8.

This is a divisional of co-pending application Ser. No. 08/595,549 filed Feb. 1, 1996.

BACKGROUND OF THE INVENTION

I. Technical Field of the Invention

The present invention relates to the field of corn breeding. In particular, the invention relates to inbred corn seed and plants designated 85CS01, RQAA8, FBPN and 3AZA1, and derivatives and tissue cultures of such inbred plants.

II. Description of the Background Art

The goal of field crop breeding is to combine various desirable traits in a single variety/hybrid. Such desirable traits include greater yield, better stalks, better roots, resistance to insecticides, pests, and disease, tolerance to heat and drought, reduced time to crop maturity, better agronomic quality, and uniformity in germination times, stand establishment, growth rate, maturity, and fruit size.

Breeding techniques take advantage of a plant's method of pollination. There are two general methods of pollination: a plant self-pollinates if pollen from one flower is transferred to the same or another flower of the same plant. A plant cross-pollinates if pollen comes to it from a flower on a different plant.

Corn plants (Zea mays L.) can be bred by both self-pollination and cross-pollination. Both types of pollination involve the corn plant's flowers. Corn has separate male and female flowers on the same plant, located on the tassel and the ear, respectively. Natural pollination occurs in corn when wind blows pollen from the tassels to the silks that protrude from the tops of the ears.

Plants that have been self-pollinated and selected for type over many generations become homozygous at almost all gene loci and produce a uniform population of true breeding progeny, a homozygous plant. A cross between two such homozygous plants produce a uniform population of hybrid plants that are heterozygous for many gene loci. Conversely, a cross of two plants each heterozygous at a number of gene loci produces a population of hybrid plants that differ genetically and are not uniform. The resulting non-uniformity make performance unpredictable.

The development of uniform corn plant hybrids requires the development of homozygous inbred plants, the crossing of these inbred plants, and the evaluation of the crosses. Pedigree breeding and recurrent selection breeding methods are used to develop inbred plants from breeding populations. Those breeding methods combine the genetic backgrounds from two or more inbred plants or various other broad-based sources into breeding pools from which new inbred plants are developed by selfing and selection of desired phenotypes. The new inbreds are crossed with other inbred plants and the hybrids from these crosses are evaluated to determine which of those have commercial potential.

The pedigree breeding method for single-gene traits involves crossing two genotypes. Each genotype can have one or more desirable characteristics lacking in the other; or, each genotype can complement the other. If the two original parental genotypes do not provide all of the desired characteristics, other genotypes can be included in the breeding population. Superior plants that are the products of these crosses are selfed and selected in successive generations. Each succeeding generation becomes more homogeneous as a result of self-pollination and selection. Typically, this method of breeding involves five or more generations of selfing and selection: S₁ →S₂ ; S₂ →S₃ ; S₃ →S₄ ; S₄ →S₅, etc. After at least five generations, the inbred plant is considered genetically pure.

Backcrossing can also be used to improve an inbred plant. Backcrossing transfers a specific desirable trait from one inbred or source to an inbred that lacks that trait. This can be accomplished for example by first crossing a superior inbred (A) (recurrent parent) to a doner inbred (non-recurrent parent), which carries the appropriate gene(s) for the trait in question. The progeny of this cross are then mated back to the superior recurrent parent (A) followed by selection in the resultant progeny for the desired trait to be transferred from the non-recurrent parent. After five or more backcross generations with selection for the desired trait, the progeny are heterozygous for loci controlling the characteristic being transferred, but are like the superior parent for most or almost all other genes. The last backcross generation would be selfed to give pure breeding progeny for the gene(s) being transferred.

A single cross hybrid corn variety is the cross of two inbred plants, each of which has a genotype which complements the genotype of the other. The hybrid progeny of the first generation is designated F₁. Preferred F₁ hybrids are more vigorous than their inbred parents. This hybrid vigor, or heterosis, is manifested in many polygenic traits, including markedly improved higher yields, better stalks, better roots, better uniformity and better insect and disease resistance. In the development of hybrids only the F₁ hybrid plants are sought. An F₁ single cross hybrid is produced when two inbred plants are crossed. A double cross hybrid is produced from four inbred plants crossed in pairs (A×B and C×D) and then the two F₁ hybrids are crossed again (A×B)×(C×D).

The development of a hybrid corn variety involves three steps: (1) the selection of plants from various germplasm pools; (2) the selfing of the selected plants for several generations to produce a series of inbred plants, which, although different from each other, each breed true and are highly uniform; and (3) crossing the selected inbred plants with unrelated inbred plants to produce the hybrid progeny (F₁). During the inbreeding process in corn, the vigor of the plants decreases. Vigor is restored when two unrelated inbred plants are crossed to produce the hybrid progeny (F₁). An important consequence of the homozygosity and homogeneity of the inbred plants is that the hybrid between any two inbreds is always the same. Once the inbreds that give a superior hybrid have been identified, hybrid seed can be reproduced indefinitely as long as the homogeneity of the inbred parents is maintained. Conversely, such of the hybrid vigor exhibited by F₁ hybrids is lost in the next generation (F₂). Consequently, seed from hybrid varieties is not used for planting stock. It is not generally beneficial for farmers to save seed of F₁ hybrids. Rather, farmers purchase F₁ hybrid seed for planting every year.

North American farmers plant over 70 million acres of corn at the present time and there are extensive national and international commercial corn breeding programs. A continuing goal of these corn breeding programs is to develop high-yielding corn hybrids that are based on stable inbred plants that maximize the amount of grain produced and minimize susceptibility to environmental stresses. To accomplish this goal, the corn breeder must select and develop superior inbred parental plants for producing hybrids.

SUMMARY OF THE INVENTION

In one aspect, the present invention provides corn plants designated, separately, 85CS01, RQAA8, FBPN, and 3AZA1. Also provided are corn plants having the physiological and morphological characteristics of corn plants 85CS01, RQAA8, FBPN, or 3AZA1, as exemplified by corn plants having all the physiological and morphological characteristics of corn plants 85CS01, RQAA8, FBPN, or 3AZA1.

The inbred corn plants of the invention may further comprise, or have, a cytoplasmic factor that is capable of conferring male sterility. Parts of the corn plants of the present invention are also provided, such as, e.g., pollen obtained from an inbred plant and an ovule of the inbred plant.

The invention also concerns seed of the corn plants 85CS01, RQAA8, FBPN, and 3AZA1, which have been deposited with the ATCC. The invention thus provides inbred corn seed selected from the group consisting of: corn seed designated RQAA8 and having accession number PTA-301.

The inbred corn seed of the invention may be provided as essentially homogeneous populations of inbred corn seed designated 85CS01, RQAA8, FBPN, or 3AZA1. Essentially homogeneous populations of inbred seed are those that consist essentially of the particular inbred seed and are generally purified free from substantial numbers of other seed, so that the inbred seed forms between about 90% and about 100% of the total seed, and preferably, between about 95% and about 100% of the total seed. Most preferably, an essentially homogeneous population of inbred corn seed will contain between about 98.5%, 99%, 99.5% and about 100% of inbred seed, as measured by seed grow outs.

In any event, even if a population of inbred corn seed was found, for some reason, to contain about 50%, or even about 20% or 15% of inbred seed, this would still be distinguished from the small fraction of inbred seed that may be found within a population of hybrid seed, e.g., within a bag of hybrid seed. In such a bag of hybrid seed offered for sale, the Governmental regulations require that the hybrid seed be at least about 95% of the total seed. In the practice of the present inventors, the hybrid seed generally forms at least about 97% of the total seed. In the most preferred practice of the inventors, the female inbred seed that may be found within a bag of hybrid seed will be about 1% of the total seed, or less, and the male inbred seed that may be found within a bag of hybrid seed will be negligible, i.e., will be on the order of about a maximum of 1 per 100,000, and usually less than this value.

The populations of inbred corn seed of the invention are further particularly defined as being essentially free from hybrid seed. The inbred seed populations may be separately grown to provide essentially homogeneous populations of inbred corn plants designated 85CS01, RQAA8, FBPN, or 3AZA1.

In another aspect, the present invention provides for single gene converted plants of 85CS01, RQAA8, FBPN, or 3AZA1. The single transferred gene may preferably be a dominant or recessive allele. Preferably, the single transferred gene will confer such traits as male sterility, herbicide resistance, insect resistance, resistance for bacterial, fungal, or viral disease, male fertility, enhanced nutritional quality, and industrial usage.

In another aspect, the present invention provides a tissue culture of regenerable cells of inbred corn plant 85CS01, RQAA8, FBPN, or 3AZA1. The tissue culture will preferably be capable of regenerating plants having the physiological and morphological characteristics of one of the foregoing inbred corn plants, and of regenerating plants having substantially the same genotype as one of the foregoing inbred corn plants. Preferably, the regenerable cells in such tissue cultures will be embryos, protoplasts, meristematic cells, pollen, leaves, anthers, roots, root tips, silk, flowers, kernels, ears, cobs, husks or stalks. Still further, the present invention provides corn plants regenerated from one of the tissue cultures of the invention.

In yet another aspect, the present invention provides processes for preparing corn seed or plants, which processes generally comprise crossing a first parent corn plant with a second parent corn plant, wherein at least one of the first or second parent corn plants is the inbred corn plant designated 85CS01, RQAA8, FBPN, or 3AZA1. These processes may be further exemplified as processes for preparing hybrid corn seed or plants, wherein a first inbred corn plant is crossed with a second, distinct inbred corn plant to provide a hybrid that has, as one of its parents, the inbred corn plant 85CS01, RQAA8, FBPN, or 3AZA1.

In a preferred embodiment, crossing comprises planting, in pollinating proximity, seeds of the first and second parent corn plant, and preferably, seeds of a first inbred corn plant and a second, distinct inbred corn plant; cultivating or growing the seeds of said first and second parent corn plants into plants that bear flowers; emasculating the male flowers of the first or second parent corn plant, i.e., treating the flowers so as to prevent pollen production, in order to produce an emasculated parent corn plant; allowing natural cross-pollination to occur between the first and second parent corn plants; and harvesting the seeds from the emasculated parent corn plant. Where desired, the harvested seed is grown to produce a corn plant or hybrid corn plant.

The present invention also provides corn seed and plants produced by a process that comprises crossing a first parent corn plant with a second parent corn plant, wherein at least one of the first or second parent corn plants is the inbred corn plant designated 85CS01, RQAA8, FBPN, or 3AZA1. In one embodiment, corn plants produced by the process are first generation (F₁) hybrid corn plants produced by crossing an inbred in accordance with the invention with another, distinct inbred. The present invention further contemplates seed of an F₁ hybrid corn plant.

In certain exemplary embodiments, the invention provides the following F₁ hybrid corn plants and seed thereof:

hybrid corn plant designated 1103157, having 85CS01 and 85DGD1 as inbred parents.

hybrid corn plant designated 2002116, having RQAA8 and MBZA as inbred parents;

hybrid corn plant designated 2002576, having FBPN and MBWZ as inbred parents; and

hybrid corn plant designated 2026021, having 3AZA1 and 3IJI1 as inbred parents.

In yet a further aspect, the invention provides inbred genetic complements of corn plants designated, separately, 85CS01, RQAA8, FBPN, and 3AZA1. The phrase "genetic complement" is used to refer to the aggregate of nucleotide sequences, the expression of which sequences defines the phenotype of, in the present case, a corn plant, or a cell or tissue of that plant. An inbred genetic complement thus represents the genetic make up of an inbred cell, tissue or plant, and a hybrid genetic complement represents the genetic make up of a hybrid cell, tissue or plant. The invention thus provides corn plant cells that have a genetic complement in accordance with the inbred corn plant cells disclosed herein, and plants, seeds and diploid plants containing such cells.

In another aspect, the present invention provides hybrid genetic complements, as represented by corn plant cells, tissues, plants and seeds, formed by the combination of a haploid genetic complement of an inbred corn plant of the invention with a haploid genetic complement of a second corn plant, preferably, another, distinct inbred corn plant. In another aspect, the present invention provides a corn plant regenerated from a tissue culture that comprises a hybrid genetic complement of this invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS I. Definitions

Barren Plants: Plants that are barren, i.e., lack an ear with grain, or have an ear with only a few scattered kernels.

Cg: Colletotrichum graminicola rating. Rating times 10 is approximately equal to percent total plant infection.

CLN: Corn lethal necrosis (combination of Maize Chlorotic Mottle Virus and Maize Dwarf Mosaic virus) rating: numerical ratings are based on a severity scale where 1=most resistant to 9=susceptible.

Cn: Corynebacterium nebraskense rating. Rating times 10 is approximately equal to percent total plant infection.

Cz: Cercospora zaea-maydis rating. Rating times 10 is approximately equal to percent total plant infection.

DGG: Diatraea grandiosella girdling rating (values are percent plants girdles and stalk lodged).

Dropped Ears: Ears that have fallen from the plant to the ground.

Dsp: Diabrotica species root ratings (1=least affected to 9=severe pruning).

Ear-Attitude: The attitude or position of the ear at harvest scored as upright, horizontal, or pendant.

Ear-Cob Color: The color of the cob, scored as white, pink, red, or brown.

Ear-Cob Diameter: The average diameter of the cob measured at the midpoint.

Ear-Cob Strength: A measure of mechanical strength of the cobs to breakage, scored as strong or weak.

Ear-Diameter: The average diameter of the ear at its midpoint.

Ear-dry Husk Color: The color of the husks at harvest scored as buff, red, or purple.

Ear-Fresh Husk Color: The color of the husks 1 to 2 weeks after pollination scored as green, red, or purple.

Ear-Husk Bract: The length of an average husk leaf scored as short, medium, or long.

Ear-Husk Cover: The average distance from the tip of the ear to the tip of the husks. Minimum value no less than zero.

Ear-Husk Opening: An evaluation of husk tightness at harvest scored as tight, intermediate, or open.

Ear-Length: The average length of the ear.

Ear-Number Per Stalk: The average number of ears per plant.

Ear-Shank Internodes: The average number of internodes on the ear shank.

Ear-Shank Length: The average length of the ear shank.

Ear-Shelling Percent: The average of the shelled grain weight divided by the sum of the shelled grain weight and cob weight for a single ear.

Ear-Silk Color: The color of the silk observed 2 to 3 days after silk emergence scored as green-yellow, yellow, pink, red, or purple.

Ear-Taper (Shape): The taper or shape of the ear scored as conical, semi-conical, or cylindrical.

Ear-Weight: The average weight of an ear.

Early Stand: The percent of plants that emerge from the ground as determined in the early spring.

ER: Ear rot rating (values approximate percent ear rotted).

Final Stand Count: The number of plants just prior to harvest.

GDUs to Shed: The number of growing degree units (GDUs) or heat units required for an inbred line or hybrid to have approximately 50 percent of the plants shedding pollen as measured from time of planting. Growing degree units are calculated by the Barger Method, where the heat units for a 24-hour period are calculated as GDUs=[Maximum daily temperature+Minimum daily temperature)/2]-50. The highest maximum daily temperature used is 86 degrees Fahrenheit and the lowest minimum temperature used is 50 degrees Fahrenheit. GDUs to shed is then determined by summing the individual daily values from planting date to the date of 50 percent pollen shed.

GDUs to Silk: The number of growing degree units for an inbred line or hybrid to have approximately 50 percent of the plants with silk emergence as measured from time of planting. Growing degree units are calculated by the same methodology as indicated in the GDUs to shed definition.

Hc2: Helminthosporium carbonum race 2 rating. Rating times 10 is approximately equal to percent total plant infection.

Hc3: Helminthosporium carbonum race 3 rating. Rating times 10 is approximately equal to percent total plant infection.

Hm: Helminthosporium Maydis race 0 rating. Rating times 10 is approximately equal to percent total plant infection.

HT1: Helminthosporium turcicum race 1 rating. Rating times 10 is approximately equal to percent total plant infection.

Ht2: Helminthosporium turcicum race 2 rating. Rating times 10 is approximately equal to percent total plant infection.

HtG: +=Presence of Ht chlorotic-lesion type resistance. Rating times 10 is approximately equal to percent total plant infection.

-=Absence of a Ht chlorotic-lesion type resistance. Rating times 10 is approximately equal to percent total plant infection.

±=Segregation of a Ht chlorotic-lesion type resistance. Rating times 10 is approximately equal to percent total plant infection.

Kernel-Aleurone Color: The color of the aleurone scored as white, pink, tan, brown, bronze, red, purple, pale purple, colorless, or variegated.

Kernel-Cap Color: The color of the kernel cap observed at dry stage, scored as white, lemon-yellow, yellow or orange.

Kernel-Endosperm Color: The color of the endosperm scored as white, pale yellow, or yellow.

Kernel-Endosperm Type: The type of endosperm scored as normal, waxy, or opaque.

Kernel-Grade: The percent of kernels that are classified as rounds.

Kernel-Length: The average distance from the cap of the kernel to the pedicel.

Kernel-Number Per Row: The average number of kernels in a single row.

Kernel-Pericarp Color: The color of the pericarp scored as colorless, red-white crown, tan, bronze, brown, light red, cherry red, or variegated.

Kernel-Row Direction: The direction of the kernel rows on the ear scored as straight, slightly curved, spiral, or indistinct (scattered).

Kernel-Row Number: The average number of rows of kernels on a single ear.

Kernel-Side Color: The color of the kernel side observed at the dry stage, scored as white, pale yellow, yellow, orange, red, or brown.

Kernel-Thickness: The distance across the narrow side of the kernel.

Kernel-Type: The type of kernel scored as dent, flint, or intermediate.

Kernel-Weight: The average weight of a predetermined number of kernels.

Kernel-Width: The distance across the flat side of the kernel.

Kz: Kabatiella zeae rating. Rating times 10 is approximately equal to percent total plant infection.

Leaf-Angle: Angle of the upper leaves to the stalk scored as upright (0 to 30 degrees), intermediate (30 to 60 degrees), or lax (60 to 90 degrees).

Leaf-Color: The color of the leaves 1 to 2 weeks after pollination scored as light green, medium green, dark green, or very dark green.

Leaf-Length: The average length of the primary ear leaf.

Leaf-Longitudinal Creases: A rating of the number of longitudinal creases on the leaf surface 1 to 2 weeks after pollination. Creases are scored as absent, few, or many.

Leaf-Marginal Waves: A rating of the waviness of the leaf margin 1 to 2 weeks after pollination. Rated as none, few, or many.

Leaf-Number: The average number of leaves of a mature plant. Counting begins with the cotyledonary leaf and ends with the flag leaf.

Leaf-Sheath Anthocyanin: A rating of the level of anthocyanin in the leaf sheath 1 to 2 weeks after pollination, scored as absent, basal-weak, basal-strong, weak or strong.

Leaf-Sheath Pubescence: A rating of the pubescence of the leaf sheath. Ratings are taken 1 to 2 weeks after pollination and scored as light, medium, or heavy.

Leaf-Width: The average width of the primary ear leaf measured at its widest point.

LSS: Late season standability (values times 10 approximate percent plants lodged in disease evaluation plots).

Moisture: The moisture of the grain at harvest.

On1: Ostrinia nubilalis 1st brood rating (1=resistant to 9=susceptible).

ON2: Ostrinia nubilalis 2nd brood rating (1=resistant to 9=susceptible).

Relative Maturity: A maturity rating based on regression analysis. The regression analysis is developed by utilizing check hybrids and their previously established day rating versus actual harvest moistures. Harvest moisture on the hybrid in question is determined and that moisture value is inserted into the regression equation to yield a relative maturity.

Root Lodging: Root lodging is the percentage of plants that root lodge. A plant is counted as root lodged if a portion of the plant leans from the vertical axis by approximately 30 degrees or more.

Seedling Color: Color of leaves at the 6 to 8 leaf stage.

Seedling Height: Plant height at the 6 to 8 leaf stage.

Seedling Vigor: A visual rating of the amount of vegetative growth on a 1 to 9 scale, where 9 equals best. The score is taken when the average entry in a trial is at the fifth leaf stage.

Selection Index: The selection index gives a single measure of hybrid's worth based on information from multiple traits. One of the traits that is almost always included is yield. Traits may be weighted according to the level of importance assigned to them.

Sr: Sphacelotheca reiliana rating is actual percent infection.

Stalk-Anthocyanin: A rating of the amount of anthocyanin pigmentation in the stalk. The stalk is rated 1 to 2 weeks after pollination as absent, basal-weak, basal-strong, weak, or strong.

Stalk-Brace Root Color: The color of the brace roots observed 1 to 2 weeks after pollination as green, red, or purple.

Stalk-Diameter: The average diameter of the lowest visible internode of the stalk.

Stalk-Ear Height: The average height of the ear measured from the ground to the point of attachment of the ear shank of the top developed ear to the stalk.

Stalk-Internode Direction: The direction of the stalk internode observed after pollination as straight or zigzag.

Stalk-Internode Length: The average length of the internode above the primary ear.

Stalk Lodging: The percentage of plants that did stalk lodge. Plants are counted as stalk lodged if the plant is broken over or off below the ear.

Stalk-Nodes With Brace Roots: The average number of nodes having brace roots per plant.

Stalk-Plant Height: The average height of the plant as measured from the soil to the tip of the tassel.

Stalk-Tillers: The percent of plants that have tillers. A tiller is defined as a secondary shoot that has developed as a tassel capable of shedding pollen.

Staygreen: Staygreen is a measure of general plant health near the time of black layer formation (physiological maturity). It is usually recorded at the time the ear husks of most entries within a trial have turned a mature color. Scoring is on a 1 to 9 basis where 9 equals best.

STR: Stalk rot rating (values represent severity rating of 1=25 percent of inoculated internode rotted to 9=entire stalk rotted and collapsed).

SVC: Southeastern Virus Complex combination of Maize Chlorotic Dwarf Virus and Maize Dwarf Mosaic Virus) rating; numerical ratings are based on a severity scale where 1=most resistant to 9=susceptible (1988 reactions are largely Maize Dwarf Mosaic Virus reactions).

Tassel-Anther Color: The color of the anthers at 50 percent pollen shed scored as green-yellow, yellow, pink, red, or purple.

Tassel-Attitude: The attitude of the tassel after pollination scored as open or compact.

Tassel-Branch Angle: The angle of an average tassel branch to the main stem of the tassel scored as upright (less than 30 degrees), intermediate (30 to 45 degrees), or lax (greater than 45 degrees).

Tassel-Branch Number: The average number of primary tassel branches.

Tassel-Glume Band: The closed anthocyanin band at the base of the glume scored as present or absent.

Tassel-Glume Color: The color of the glumes at 50 percent shed scored as green, red, or purple.

Tassel-Length: The length of the tassel measured from the base of the bottom tassel branch to the tassel tip.

Tassel-Peduncle Length: The average length of the tassel peduncle, measured from the base of the flag leaf to the base of the bottom tassel branch.

Tassel-Pollen Shed: A visual rating of pollen shed determined by tapping the tassel and observing the pollen flow of approximately five plants per entry. Rated on a 1 to 9 scale where 9=sterile, 1=most pollen.

Tassel-Spike Length: The length of the spike measured from the base of the top tassel branch to the tassel tip.

Test Weight: The measure of the weight of the grain in pounds for a given volume (bushel) adjusted to 15.5 percent moisture.

Yield: Yield of grain at harvest adjusted to 15.5 percent moisture.

II. Other Definitions

Allel is any of one or more alternative forms of a gene, all of which alleles relate to one trait or characteristic. In a diploid cell or organism, the two alleles of a given gene occupy corresponding loci on a pair of homologous chromosomes.

Backcrossing is a process in which a breeder crosses a first generation hybrid (F₁) with one of the parental genotypes.

Chromatography is a technique wherein a mixture of dissolved substances are bound to a solid support followed by passing a column of fluid across the solid support and varying the composition of the fluid. The components of the mixture are separated by selective elution.

Crossing refers to the mating of two parent plants.

Cross-pollination refers to fertilization by the union of two gametes from different plants.

Diploid refers to a cell or organism having two sets of chromosomes.

Electrophoresis is a process by which particles suspended in a fluid are moved under the action of an electrical field, and thereby separated according to their charge and molecular weight. This method of separation is well known to those skilled in the art and is typically applied to separating various forms of enzymes and of DNA fragments produced by restriction endonucleases.

Emasculate refers to the removal of plant male sex organs.

Enzymes are organic catalysts that can exist in various forms called isozymes.

F₁ Hybrid refers to the first generation progeny of the cross of two plants.

Genetic Complement refers to an aggregate of nucleotide sequences, the expression of which sequences defines the phenotype in corn plants, or components of plants including cells or tissue.

Genotype refers to the genetic constitution of a cell or organism.

Haploid refers to a cell or organism having one set of the two sets of chromosomes in a diploid.

Isozymes are one of a number of enzymes which catalyze the same reaction(s) but differ from each other, e.g., in primary structure and/or electrophoretic mobility. The differences between isozymes are under single gene, codominant control. Consequently, electrophoretic separation to produce band patterns can be equated to different alleles at the DNA level. Structural differences that do not alter charge cannot be detected by this method.

Isozyme typing profile refers to a profile of band patterns of isozymes separated by electrophoresis that can be equated to different alleles at the DNA level.

Linkage refers to a phenomenon wherein alleles on the same chromosome tend to segregate together more often than expected by chance if their transmission was independent.

Marker is a readily detectable phenotype, preferably inherited in codominant fashion (both alleles at a locus in a diploid heterozygote are readily detectable), with no environmental variance component, i.e., heritability of 1.

RQAA8 refers to the corn plant from which seeds having accession number PTA-301 were obtained, as well as plants grown from those seeds.

Phenotype refers to the detectable characteristics of a cell or organism, which characteristics are the manifestation of gene expression.

Quantitative Trait Loci (QTL) refer to genetic loci that control to some degree numerically representable traits that are usually continuously distributed.

Regeneration refers to the development of a plant from tissue culture.

RFLP genetic marker profile refers to a profile of band patterns of DNA fragment lengths typically separated by agarose gel electrophoresis, after restriction endonuclease digestion of DNA.

Self-pollination refers to the transfer of pollen from the anther to the stigma of the same plant.

Single Gene Converted (Conversion) Plant refers to plants which are developed by a plant breeding technique called backcrossing wherein essentially all of the desired morphological and physiological characteristics of an inbred are recovered in addition to the single gene transferred into the inbred via the backcrossing technique.

Tissue Culture refers to a composition comprising isolated cells of the same or a different type or a collection of such cells organized into parts of a plant.

The following examples are included to demonstrate preferred embodiments of the invention. It should be appreciated by those of skill in the art that the techniques disclosed in the examples that follow represent techniques discovered by the inventor to function well in the practice of the invention, and thus can be considered to constitute preferred modes for its practice. However, those of skill in the art should, in light of the present disclosure, appreciate that many changes can be made in the specific embodiments that are disclosed and still obtain a like or similar result without departing from the spirit and scope of the invention.

III. Inbred Corn Plant 85CS01

In accordance with one aspect of the present invention, there is provided a novel inbred corn plant, designated 85CS01. Inbred corn plant 85CS01 is a yellow, dent corn inbred that can be compared to inbred corn plants LAC29, LH212, LH51, and MM501D. LH212 and LH51 are inbred lines developed by Holden's Foundation Seeds, Inc. LAC29 and MM501D are proprietary inbreds of DEKALB Genetics Corporation. 85CS01 differs significantly (at the 5% level) from these inbred lines in several aspects (See Tables 1, 2, 3, and 4).

                                      TABLE 1                                      __________________________________________________________________________     COMPARISON OF 85CS01 WITH LAC29                                                     BARREN                                                                              DROP                                                                               EHT      MST PHT RTL                                                                               SHED SILK STL                                                                               YLD                               INBRED % % INCH FINAL % INCH % GDU GDU % BU/A                                __________________________________________________________________________       85CS01 3.9 0.1 21.5 56.2 23.4 65.6 0.0 1559.1 1585.0 1.5 46.6                  LAC29 1.5 0.1 25.0 57.0 19.7 65.6 0.1 1515.5 1501.1 1.6 71.6                   DIFF 2.4 0.1 -3.5 -0.8 3.7 0.0 -0.1 43.6 83.9 -0.1 -25.1                       # LOC/ 15 15 15 15 11 15 15 15 15 15 15                                        TESTS                                                                          P VALUE 0.18 0.67 0.00** 0.64 0.00** 0.98 0.96 0.00** 0.00** 0.85            __________________________________________________________________________                                                    0.00**                          Legend Abbreviations  Significance levels are indicated as:                    BARREN % =                                                                            Barren Plants (Percent)                                                                       += 10 percent                                              DROP % = Dropped Ears (Percent) *=  5 percent                                  EHT INCH = Ear Height (Inches) **=  1 percent                                  FINAL = Final Stand                                                            MST % = Moisture (Percent)                                                     PHT INCH = Plant Height (Inches)                                               RTL % = Root Lodging (Percent)                                                 SHED GDU = GDUs to Shed                                                        SILK GDU = GDUs to Silk                                                        STL % = Stalk Lodging (Percent)                                                YLD BU/A = Yield (Bushels/Acre)                                         

                                      TABLE 2                                      __________________________________________________________________________     COMPARISON OF 85CS01 WITH LH212                                                      BARREN                                                                              DROP                                                                               EHT      MST PHT RTL                                                                               SHED SILK STL                                                                               YLD                              INBRED % % INCH FINAL % INCH % GDU GDU % BU/A                                __________________________________________________________________________       85CS01 3.9 0.1 21.5 56.4 23.4 65.5 0.0 1561.1 1586.0 1.5 46.0                  LH212 0.7 0.7 35.1 58.0 20.8 76.6 0.8 1603.1 1605.4 3.2 69.3                   DIFF 3.2 -0.6 -13.6 -1.7 2.5 -11.1 -0.8 -42.0 -18.5 -1.7 -23.3                 # 15 14 14 14 11 14 14 14 14 14 14                                             LOC/TESTS                                                                      P VALUE 0.07+ 0.05* 0.00** 0.27 0.01** 0.00** 0.35 0.00** 0.09+ 0.13                                                         0.00**                         __________________________________________________________________________     Legend Abbreviations  Significance levels are indicated as:                    BARREN % =                                                                            Barren Plants (Percent)                                                                       += 10 percent                                              DROP % = Dropped Ears (Percent) *=  5 percent                                  EHT INCH = Ear Height (Inches) **=  1 percent                                  FINAL = Final Stand                                                            MST % = Moisture (Percent)                                                     PHT INCH = Plant Height (Inches)                                               RTL % = Root Lodging (Percent)                                                 SHED GDU = GDUs to Shed                                                        SILK GDU = GDUs to Silk                                                        STL % = Stalk Lodging (Percent)                                                YLD BU/A = Yield (Bushels/Acre)                                         

                                      TABLE 3                                      __________________________________________________________________________     COMPARISON OF 85CS01 WITH LH51                                                      BARREN                                                                              DROP                                                                               EHT      MST PHT RTL                                                                               SHED SILK STL                                                                               YLD                               INBRED % % INCH FINAL % INCH % GDU GDU % BU/A                                __________________________________________________________________________       85CS01 3.9 0.1 21.5 56.2 23.5 65.6 0.0 1559.1 1585.0 1.5 46.6                  LHS1 6.7 2.1 34.5 57.2 22.7 68.6 0.2 1647.4 1688.5 2.8 42.6                    DIFF -2.8 -2.0 -13.0 -0.9 0.8 -3.0 -0.2 -88.3 -103.5 -1.4 4.0                  # LOC/ 15 15 15 15 9 15 15 15 15 15 15                                         TESTS                                                                          P VALUE 0.19 0.00** 0.00** 0.58 0.61 0.02* 0.87 0.00** 0.00** 0.26           __________________________________________________________________________                                                    0.17                            Legend Abbreviations  Significance levels are indicated as:                    BARREN % =                                                                            Barren Plants (Percent)                                                                       += 10 percent                                              DROP % = Dropped Ears (Percent) *=  5 percent                                  EHT INCH = Ear Height (Inches) **=  1 percent                                  FINAL = Final Stand                                                            MST % = Moisture (Percent)                                                     PHT INCH = Plant Height (Inches)                                               RTL % = Root Lodging (Percent)                                                 SHED GDU = GDUs to Shed                                                        SILK GDU = GDUs to Silk                                                        STL % = Stalk Lodging (Percent)                                                YLD BU/A = Yield (Bushels/Acre)                                         

                                      TABLE 4                                      __________________________________________________________________________     COMPARISON OF 85CS01 WITH MM501D                                                    BARREN                                                                              DROP                                                                               EHT      MST PHT RTL                                                                               SHED SILK STL                                                                               YLD                               INBRED % % INCH FINAL % INCH % GDU GDU % BU/A                                __________________________________________________________________________       85CS01 4.2 0.1 21.4 56.3 24.3 65.7 0.0 1566.4 1601.1 1.3 47.2                  MM501D 2.1 0.1 21.6 58.1 23.3 65.0 0.1 1548.6 1587.6 1.4 59.9                  DIFF 2.2 0.1 -0.2 -1.8 0.9 0.7 -0.1 17.8 13.5 -0.1 -12.6                       # LOC/ 18 18 18 18 13 18 18 18 18 18 17                                        TESTS                                                                          P VALUE 0.24 0.78 0.91 0.17 0.37 0.57 0.90 0.03* 0.15 0.84 0.02*             __________________________________________________________________________     Legend Abbreviations  Significance levels are indicated as:                    BARREN % =                                                                            Barren Plants (Percent)                                                                       += 10 percent                                              DROP % = Dropped Ears (Percent) *=  5 percent                                  EHT INCH = Ear Height (Inches) **=  1 percent                                  FINAL = Final Stand                                                            MST % = Moisture (Percent)                                                     PHT INCH = Plant Height (Inches)                                               RTL % = Root Lodging (Percent)                                                 SHED GDU = GDUs to Shed                                                        SILK GDU = GDUs to Silk                                                        STL % = Stalk Lodging (Percent)                                                YLD BU/A = Yield (Bushels/Acre)                                         

A. Origin and Breeding History

Inbred plant 85CS01 was derived from the cross of two inbred plants designated 6M502 and 78551S (both proprietary inbreds of DELKALB Genetics Corporation) in the winter of 1988.

85CS01 shows uniformity and stability within the limits of environmental influence for the traits described hereinafter in Table 5. 85CS01 has been self-pollinated and ear-rowed a sufficient number of generations with careful attention paid to uniformity of plant type to ensure homozygosity and phenotypic stability. No variant traits have been observed or are expected in 85CS01.

Inbred corn plants can be reproduced by planting such inbred seeds, growing the resulting corn plants under self-pollinating or sib-pollinating conditions with adequate isolation using standard techniques well known to an artisan skilled in the agricultural arts. Seeds can be harvested from such a plant using standard, well known procedures.

The origin and breeding history of inbred plant 85CS01 can be summarized as follows:

    ______________________________________                                         Winter 1988                                                                               The cross 6M502.78551S was made (nursery rows                          E152 × E21).                                                            Spring 1988 The SO was grown and SO plants were backcrossed                     to 78551S (nursery rows 8067 × 8067M).                                  Summer 1988 Bulked seed of 78551S"6M502 was grown and                           selected plants were self-pollinated (nursery row                              8067).                                                                        Winter 1989 BC1S1 generation was grown and self-pollinated                      (nursery rows 519/105 and 520/105-57).                                        Summer 1989 BC1S2 generation grown and self-pollinated                          (nursery rows 202/16-1 and 203/1-34).                                         Winter 1990 BC1S3 generation grown and self-pollinated                          (nursery rows 609/52-79).                                                     Summer 1990 BC1S4 generation grown and self-pollinated                          (nursery rows 315/108-110 and 316/110-74).                                    Winter 1991 BC1S5 generation grown and self-pollinated                          (nursery rows Q11/27-32 and Q7/23-28).                                        Summer 1991 BC1S6 generation grown and self-pollinated                          (nursery rows 358/40-16) and seed was bulked.                                  Named 85CS01.                                                               ______________________________________                                    

B. Phenotypic Description

In accordance with another aspect of the present invention, there is provided a corn plant having the physiological and morphological characteristics of corn plant 85CS01. A description of the physiological and morphological characteristics of corn plant 85CS01 is presented in Table 5. These traits can be compared to inbred corn plants LAC29, LH212, LH51, and MM501D.

                                      TABLE 5                                      __________________________________________________________________________     MORPHOLOGICAL TRAITS FOR THE                                                     85CS01 PHENOTYPE                                                                       VALUE                                                                CHARACTERISTIC                                                                           85CS01                                                                               LAC29 LH212 LH51  MM501D                                       __________________________________________________________________________     1. Stalk                                                                         Diameter  2.4  2.3  2.4  2.2  2.4                                              (Width) cm.                                                                    Brace Root PURPLE PURPLE -- GREEN GREEN                                        Color                                                                          Anthocyanin ABSENT -- BASAL -- ABSENT                                             WEAK                                                                        Nodes With  1.7  2.0  1.5  2.4  1.9                                            Brace Roots                                                                    Internode STRAIGHT STRAIGHT STRAIGHT STRAIGHT STRAIGHT                         Direction                                                                      Internode 11.1 13.7 17.9 14.2 12.4                                             Length cm.                                                                     2. Leaf                                                                        Number 17.5 17.6 18.4 17.4 18.4                                                Length cm. 77.8 75.3 83.7 70.1 70.7                                            Width cm.  9.5  9.3  8.8  8.6 10.4                                             Sheath ABSENT -- STRONG -- ABSENT                                              Anthocyanin                                                                    Sheath LIGHT LIGHT MEDIUM MEDIUM LIGHT                                         Pubescence                                                                     Marginal Waves MEDIUM FEW FEW FEW FEW                                          Longitudinal FEW ABSENT ABSENT FEW --                                          Creases                                                                        3. Tassel                                                                      Length cm. 47.4 33.7 43.9 39.8 26.8                                            Spike Length 30.6 22.6 25.9 29.2 18.9                                          cm.                                                                            Peduncle  8.5  7.5 11.4 10.2  7.6                                              Length cm.                                                                     Branch Number 10.8  6.0  4.8  6.5  7.4                                         Anther Color GRN-YEL GRN-YEL -- GRN-YEL GRN-YEL                                Glume Color GREEN GREEN GREEN GREEN GREEN                                      Glume Band ABSENT ABSENT ABSENT ABSENT ABSENT                                  4. Ear                                                                         Silk Color PINK GRN-YELL GRN-YELL -- GRN-YELL                                  Number Per  1.0  1.0  1.5  1.0  1.0                                            Stalk                                                                          Position UPRIGHT -- UPRIGHT UPRIGHT UPRIGHT                                    (Attitude)                                                                     Length cm. 14.2 13.1 15.0 17.9 13.9                                            Shape SEMI- SEMI- SEMI- SEMI- SEMI-                                             CONICAL CONICAL CONICAL CONICAL CONICAL                                       Diameter cm. 39.0 41.2 40.5 34.4 40.0                                          Weight gm. 104.0  106.2  112.8  97.3 110.5                                     Shank Length 13.5  8.4  8.8 14.2 13.5                                          cm.                                                                            Shank  8.2  6.3  7.8  6.3  8.0                                                 Internode                                                                      Number                                                                         Husk Bract SHORT SHORT SHORT SHORT SHORT                                       Husk Cover cm.  7.9  6.5  5.7  2.8  3.2                                        Husk Opening TIGHT TIGHT INTERMED -- INTERMED                                  Husk Color GREEN GREEN GREEN GREEN GREEN                                       Fresh                                                                          Husk Color Dry BUFF BUFF BUFF BUFF BUFF                                        Cob Color PINK WHITE RED RED RED                                               Cob Diameter 23.5 23.9 25.5 18.2 23.0                                          cm.                                                                            Shelling 86.0 86.7 82.0 86.5 85.7                                              Percent                                                                        5. Kernel                                                                      Row Number 14.4 13.9 13.4 10.8 14.3                                            Number Per Row 23.4 25.4 28.3 29.5 29.5                                        Row Direction CURVED CURVED CURVED CURVED CURVED                               Type DENT DENT DENT DENT DENT                                                  Cap Color YELLOW YELLOW YELLOW YELLOW YELLOW                                   Side Color ORANGE ORANGE ORANGE ORANGE ORANGE                                  Length (Depth) 11.5 11.0 10.6 10.5 10.8                                        mm.                                                                            Width mm.  8.7  9.1  8.5  8.8  8.3                                             Thickness  6.1  4.5  4.3  5.3  4.3                                             Weight of 335.0  302.4  288.0  315.8  280.7                                    1000K gm.                                                                      Endosperm Type NORMAL NORMAL NORMAL NORMAL NORMAL                              Endosperm YELLOW YELLOW YELLOW YELLOW YELLOW                                   Color                                                                        __________________________________________________________________________      *These are typical values. Values may vary due to environment. Other           values that are substantially equivalent are also within the scope of the      invention. Substantially equivalent refers to quantitative traits that         when compared do not show statistical differences of their means.        

IV. Inbred Corn Plant RQAA8

In accordance with one aspect of the present invention, there is provided a novel inbred corn plant, designated RQAA8. Inbred corn plant RQAA8 is a yellow, dent corn inbred that can be compared to inbred corn plants 2FADB, FBLL, and LH132. 2FADB and FBLL are proprietary inbreds of DEKALB Genetics Corporation. LH132 is an inbred developed by Holden's Foundation Seeds, Inc. RQAA8 differs significantly (at the 5% level) from these inbred lines in several aspects (See Tables 6, 7, and 8).

                                      TABLE 6                                      __________________________________________________________________________     COMPARISON OF RQAA8 WITH 2FADB                                                        BARREN                                                                              DROP                                                                               EHT      MST PHT RTL                                                                               SHED SILK STL                                                                               YLD                             INBRED % % INCH FINAL % INCH % GDU GDU % BU/A                                __________________________________________________________________________       RQAA8 1.5 0.3 33.8 57.5 24.5 79.4 0.9 1457.9 1455.7 1.0 93.7                   2FADB 0.5 0.1 31.5 57.7 20.8 72.0 0.0 1434.6 1431.4 2.1 101.9                  DIFF 1.0 0.2 2.3 -0.2 3.7 7.4 0.9 23.3 24.3 -1.1 -8.3                          # LOC/TESTS 23 28 28 28 28 28 28 28 28 28 28                                   P VALUE 0.38 0.07+ 0.00** 0.70 0.00** 0.00** 0.06+ 0.00** 0.00** 0.09+                                                        0.02*                         __________________________________________________________________________     Legend Abbreviations  Significance levels are indicated as:                    BARREN % =                                                                            Barren Plants (Percent)                                                                       += 10 percent                                              DROP % = Dropped Ears (Percent) *=  5 percent                                  EHT INCH = Ear Height (Inches) **=  1 percent                                  FINAL = Final Stand                                                            MST % = Moisture (Percent)                                                     PHT INCH = Plant Height (Inches)                                               RTL % = Root Lodging (Percent)                                                 SHED GDU = GDUs to Shed                                                        SILK GDU = GDUs to Silk                                                        STL % = Stalk Lodging (Percent)                                                YLD BU/A = Yield (Bushels/Acre)                                         

                                      TABLE 7                                      __________________________________________________________________________     COMPARISON OF RQAA8 WITH FBLL                                                         BARREN                                                                              DROP                                                                               EHT      MST PHT RTL                                                                               SHED SILK STL                                                                               YLD                             INBRED % % INCH FINAL % INCH % GDU GDU % BU/A                                __________________________________________________________________________       RQAA8 1.5 0.3 33.8 57.5 24.5 79.4 0.9 1457.9 1455.7 1.0 93.7                   FBLL 1.2 0.0 32.0 58.0 25.6 74.0 0.0 1436.0 1455.2 1.0 88.9                    DIFF 0.3 0.3 1.8 -0.5 -1.1 5.5 0.9 21.9 0.6 0.1 4.8                            # LOC/TESTS 23 28 28 28 28 28 28 28 28 28 28                                   P VALUE 0.90 0.03* 0.01** 0.49 0.04* 0.00** 0.06+ 0.00** 0.95 0.93           __________________________________________________________________________                                                      0.16                          Legend Abbreviations  Significance levels are indicated as:                    BARREN % =                                                                            Barren Plants (Percent)                                                                       += 10 percent                                              DROP % = Dropped Ears (Percent) *=  5 percent                                  EHT INCH = Ear Height (Inches) **=  1 percent                                  FINAL = Final Stand                                                            MST % = Moisture (Percent)                                                     PHT INCH = Plant Height (Inches)                                               RTL % = Root Lodging (Percent)                                                 SHED GDU = GDUs to Shed                                                        SILK GDU = GDUs to Silk                                                        STL % = Stalk Lodging (Percent)                                                YLD BU/A = Yield (Bushels/Acre)                                         

                                      TABLE 8                                      __________________________________________________________________________     COMPARISON OF RQAA8 WITH LH132                                                        BARREN                                                                              DROP                                                                               EHT      MST PHT RTL                                                                               SHED SILK STL                                                                               YLD                             INBRED % % INCH FINAL % INCH % GDU GDU % BU/A                                __________________________________________________________________________       RQAA8 1.5 0.3 33.8 57.5 24.5 79.4 0.9 1457.9 1455.7 1.0 93.7                   LH132 1.1 0.0 29.0 58.2 21.4 70.0 0.0 1428.3 1439.3 0.9 89.6                   DIFF 0.3 0.3 4.8 -0.7 3.1 9.4 0.9 29.5 16.5 0.1 4.1                            # LOC/TESTS 23 28 28 28 28 28 28 28 28 28 28                                   P VALUE 0.74 0.02* 0.00** 0.44 0.00** 0.00** 0.06+ 0.00** 0.01** 0.81                                                         0.23                          __________________________________________________________________________     Legend Abbreviations  Significance levels are indicated as:                    BARREN % =                                                                            Barren Plants (Percent)                                                                       += 10 percent                                              DROP % = Dropped Ears (Percent) *=  5 percent                                  EHT INCH = Ear Height (Inches) **=  1 percent                                  FINAL = Final Stand                                                            MST % = Moisture (Percent)                                                     PHT INCH = Plant Height (Inches)                                               RTL % = Root Lodging (Percent)                                                 SHED GDU = GDUs to Shed                                                        SILK GDU = GDUs to Silk                                                        STL % = Stalk Lodging (Percent)                                                YLD BU/A = Yield (Bushels/Acre)                                         

A. Origin and Breeding History

Inbred plant RQAA8 was derived from the cross of two inbred plants designated F133 and Pioneer 3358 in the winter of 1986. F133 is a proprietary inbred of DEKALB Genetics Corporation.

RQAA8 shows uniformity and stability within the limits of environmental influence for the traits described hereinafter in Table 9. RQAA8 has been self-pollinated and ear-rowed a sufficient number of generations with careful attention paid to uniformity of plant type to ensure homozygosity and phenotypic stability. No variant traits have been observed or are expected in RQAA8.

A deposit of 2500 seeds of plant designated RQAA8 has been made with the American Type Culture Collection (ATCC), 10801 University Blvd., Manassas, Va. on Jun. 30, 1999. Those deposited seeds have been assigned accession number PTA-301. The deposit was made in accordance with the terms and provisions of the Budapest Treaty relating to deposit of microorganisms and is made for a term of at least thirty (30) years and at least five (05) years after the most recent request for the furnishing of a sample of the deposit was received by the depository.

Inbred corn plants can be reproduced by planting such inbred seeds, growing the resulting corn plants under self-pollinating or sib-pollinating conditions with adequate isolation using standard techniques well known to an artisan skilled in the agricultural arts. Seeds can be harvested from such a plant using standard, well known procedures.

The origin and breeding history of inbred plant RQAA8 can be summarized as follows:

    ______________________________________                                         Winter 1986                                                                              The inbred line F133 (a proprietary of DEKALB                           Genetics Corporation) was crossed to a selection                               from the hybrid Pioneer 3358 to generate the SO.                              Summer 1986 The SO was crossed to the line selected from 3378                   (nursery rows 327:13-14).                                                     Winter 1987 The backcross was selfed (nursery rows 56:24-                       59:15).                                                                       Summer 1987 S2 rows were grown. RQAA8 traces to ear 1 of row                    288:2.                                                                        Summer 1988 S3 seed was grown ear-to-row (nursery row 352:24).                 Winter 1989 S4 seed was grown ear-to-row (nursery row 406:25).                 Summer 1989 S5 seed was grown ear-to-row (nursery row 386:15).                 Summer 1990 S6 seed was grown ear-to-row (nursery row 213:19).                  Two ears were selected.                                                       Winter 1991 Increase in two ear rows 524:26-27. Bulked seed                     and named RQAA8.                                                            ______________________________________                                    

B. Phenotypic Description

In accordance with another aspect of the present invention, there is provided a corn plant having the physiological and morphological characteristics of corn plant RQAA8. A description of the physiological and morphological characteristics of corn plant RQAA8 is presented in Table 9. These traits can be compared to inbred corn plants 2FADB, FBLL, and LH132.

                                      TABLE 9                                      __________________________________________________________________________     MORPHOLOGICAL TRAITS FOR                                                         THE RQAA8 PHENOTYPE                                                                     VALUE                                                               CHARACTERISTIC                                                                            RQAA8  2FADB   FBLL   LH132                                         __________________________________________________________________________     1. Stalk                                                                         Diameter (Width) cm.  2.0  2.0  2.2  2.6                                       Anthocyanin ABSENT BASAL-WEAK ABSENT BASAL                                         WEAK                                                                       Nodes With Brace Roots  2.1  2.0  2.3  2.3                                     Brace Root Color GREEN PURPLE -- PURPLE                                        Internode Direction STRAIGHT STRAIGHT STRAIGHT STRAIGHT                        Internode Length cm. 12.9 12.7 14.6 12.3                                       2. Leaf                                                                        Angle -- UPRIGHT UPRIGHT UPRIGHT                                               Number 19.4 19.0 18.9 19.1                                                     Color MED MED GREEN MED GREEN MED GREEN                                         GREEN                                                                         Length cm. 81.4 72.8 72.2 79.5                                                 Width cm.  9.7  8.6  8.8  8.3                                                  Sheath Anthocyanin ABSENT STRONG -- --                                         Marginal Waves -- FEW FEW --                                                   Longitudinal Creases FEW ABSENT FEW ABSENT                                     3. Tassel                                                                      Length cm. 36.3 27.4 26.7 41.7                                                 Spike Length cm. 25.8 20.1 17.9 24.9                                           Peduncle Length cm.  6.4  6.5  9.5 10.5                                        Branch Angle INTERMED INTERMED UPRIGHT UPRIGHT                                 Branch Number  6.2  7.8  5.9  7.3                                              Anther Color GRN-YEL RED -- GRN-                                                   YELLOW                                                                         W/ANTH                                                                     Glume Color GREEN GREEN GREEN GREEN                                            Glume Band ABSENT ABSENT ABSENT ABSENT                                         4. Ear                                                                         Silk Color GRN-YEL TAN GRN-YEL GRN-YEL                                         Number Per Stalk  1.0  1.2  1.1  1.0                                           Position (Attitude) UPRIGHT UPRIGHT UPRIGHT UPRIGHT                            Length cm. 15.6 13.6 14.4 13.5                                                 Shape SEMI- SEMI- SEMI- SEMI-                                                   CONICAL CONICAL CONICAL CONICAL                                               Diameter cm. 39.2 41.0 41.0 41.7                                               Weight gm. 124.0  108.0  122.4  117.2                                          Shank Length cm.  9.1 13.8  9.0 10.0                                           Shank Internode Number  6.3  8.2  7.1  7.2                                     Husk Bract SHORT SHORT SHORT SHORT                                             Husk Cover cm.  4.9  5.7  5.1  9.4                                             Husk Opening MEDIUM MEDIUM -- --                                               Husk Color Fresh GREEN LT GREEN GREEN GREEN                                    Husk Color Dry BUFF BUFF BUFF BUFF                                             Cob Diameter cm. 21.2 23.0 24.0 24.1                                           Shelling Percent 84.8 84.1 83.5 84.6                                           5. Kernel                                                                      Row Number 13.9 14.4 17.3 15.8                                                 Number Per Row 26.5 27.4 28.9 28.8                                             Row Direction CURVED CURVED CURVED CURVED                                      Type DENT DENT DENT DENT                                                       Cap Color YELLOW YELLOW -- YELLOW                                              Side Color ORANGE DEEP -- DEEP                                                   YELLOW  YELLOW                                                               Length (Depth) mm. 10.8 11.2 11.4 11.0                                         Width mm.  8.4  8.2  6.9  7.7                                                  Thickness  5.2  4.1  4.2  4.0                                                  Weight of 1000K gm. 337.2  290.3  233.6  246.4                                 Endosperm Type NORMAL NORMAL NORMAL NORMAL                                     Endosperm Color YELLOW YELLOW YELLOW YELLOW                                  __________________________________________________________________________      *These are typical values. Values may vary due to environment. Other           values that are substantially equivalent are also within the scope of the      invention. Substantially equivalent refers to quantitative traits that         when compared do not show statistical differences of their means.        

V. Inbred Corn Plant FBPN

In accordance with one aspect of the present invention, there is provided a novel inbred corn plant, designated FBPN. Inbred corn plant FBPN is a yellow, dent corn inbred that can be compared to inbred corn plants 2FACC, 2FADB, FBLL, and LH132. 2FACC, 2FADB, and FBLL are proprietary inbreds of DEKALB Genetics Corporation. LH132 is an inbred developed by Holden's Foundation Seeds, Inc. FBPN differs significantly (at the 5% level) from these inbred lines in several aspects (See Tables 10, 11, 12, and 13).

                                      TABLE 10                                     __________________________________________________________________________     COMPARISON OF FBPN WITH 2FACC                                                       BARREN                                                                              DROP                                                                               EHT      MST PHT RTL                                                                               SHED SILK STL                                                                               YLD                               INBRED % % INCH FINAL % INCH % GDU GDU % BU/A                                __________________________________________________________________________       FBPN 3.1 0.0 33.6 43.8 23.4 73.4 0.0 1447.5 1444.9 0.7 76.7                    2FACC 1.6 0.2 30.2 58.4 18.7 70.8 0.1 1408.6 1409.7 2.5 101.7                  DIFF 1.5 -0.2 3.4 -14.6 4.8 2.7 -0.1 38.9 35.2 -1.8 -25.0                      # LOC/                                                                         TESTS 9 9 8 9 7 8 9 8 8 9 6                                                    P 0.54 0.43 0.03* 0.00** 0.00** 0.08+ 0.90 0.00** 0.00** 0.11 0.00**                                                         VALUE                          __________________________________________________________________________     Legend Abbreviations  Significance levels are indicated as:                    BARREN % =                                                                            Barren Plants (Percent)                                                                       += 10 percent                                              DROP % = Dropped Ears (Percent) *=  5 percent                                  EHT INCH = Ear Height (Inches) **=  1 percent                                  FINAL = Final Stand                                                            MST % = Moisture (Percent)                                                     PHT INCH = Plant Height (Inches)                                               RTL % = Root Lodging (Percent)                                                 SHED GDU = GDUs to Shed                                                        SILK GDU = GDUs to Silk                                                        STL % = Stalk Lodging (Percent)                                                YLD BU/A = Yield (Bushels/Acre)                                         

                                      TABLE 11                                     __________________________________________________________________________     COMPARISON OF FBPN WITH 2FADB                                                       BARREN                                                                              DROP                                                                               EHT      MST PHT RTL                                                                               SHED SILK STL YLD                              INBRED % % INCH FINAL % INCH % GDU GDU % BU/A                                __________________________________________________________________________       FBPN 3.1 0.0 33.6 43.8 23.4 73.4 0.0 1447.5 1444.9 0.7 76.7                    2FADB 0.3 0.2 32.2 56.3 19.2 72.6 0.0 1433.1 1422.8 3.6 103.4                  DIFF 2.8 -0.2 1.4 -12.5 4.3 0.8 0.0 14.4 22.2 -2.9 -26.7                       # LOC/                                                                         TESTS 9 9 8 9 7 8 9 8 8 9 6                                                    P VALUE 0.26 0.33 0.38 0.00** 0.00** 0.58 1.00 0.15 0.04* 0.01**             __________________________________________________________________________                                                     0.00**                         Legend Abbreviations  Significance levels are indicated as:                    BARREN % =                                                                            Barren Plants (Percent)                                                                       += 10 percent                                              DROP % = Dropped Ears (Percent) *=  5 percent                                  EHT INCH = Ear Height (Inches) **=  1 percent                                  FINAL = Final Stand                                                            MST % = Moisture (Percent)                                                     PHT INCH = Plant Height (Inches)                                               RTL % = Root Lodging (Percent)                                                 SHED GDU = GDUs to Shed                                                        SILK GDU = GDUs to Silk                                                        STL % = Stalk Lodging (Percent)                                                YLD BU/A = Yield (Bushels/Acre)                                         

                                      TABLE 12                                     __________________________________________________________________________     COMPARISON OF FBPN WITH FBLL                                                          BARREN                                                                              DROP                                                                               EHT      MST                                                                               PHT RTL                                                                               SHED SILK STL                                                                               YLD                              INBRED % % INCH FINAL % INCH % GDU GDU % BU/A                                __________________________________________________________________________       FBPN 3.1 0.0 33.6 43.8 23.4 73.4 0.0 1447.5 1444.9 0.7 76.7                    FBLL 1.0 0.1 33.2 56.8 24.0 73.9 0.0 1430.5 1455.2 1.0 89.4                    DIFF 2.2 -0.1 0.4 -13.0 -0.6 -0.5 0.0 17.1 -10.3 -0.3 -12.6                    # LOC/TESTS 9 9 8 9 7 8 9 8 8 9 6                                              P VALUE 0.39 0.70 0.81 0.00** 0.53 0.75 1.00 0.09+ 0.34 0.79 0.05*           __________________________________________________________________________     Legend Abbreviations  Significance levels are indicated as:                    BARREN % =                                                                            Barren Plants (Percent)                                                                       += 10 percent                                              DROP % = Dropped Ears (Percent) *=  5 percent                                  EHT INCH = Ear Height (Inches) **=  1 percent                                  FINAL = Final Stand                                                            MST % = Moisture (Percent)                                                     PHT INCH = Plant Height (Inches)                                               RTL % = Root Lodging (Percent)                                                 SHED GDU = GDUs to Shed                                                        SILK GDU = GDUs to Silk                                                        STL % = Stalk Lodging (Percent)                                                YLD BU/A = Yield (Bushels/Acre)                                         

                                      TABLE 13                                     __________________________________________________________________________     COMPARISON OF FBPN WITH LH132                                                        BARR                                                                        EN DROP EHT  MST PHT RTL SHED SILK STL YLD                                    INBRED % % INCH FINAL % INCH % GDU GDU % BU/A                                __________________________________________________________________________       FBPN 1.8 0.2 32.4 49.8 20.8 72.9 0.0 1477.1 1484.3 0.6 68.9                    LH132 1.6 0.0 28.8 58.2 19.3 69.4 0.0 1485.8 1490.6 0.8 74.1                   DIFF 0.2 0.2 3.7 -8.4 1.6 3.5 0.0 -8.7 -6.3 -0.2 -5.2                          # 17 17 16 17 14 16 17 16 16 17 14                                             LOC/TESTS                                                                      P VALUE 1.00 0.72 0.00** 0.00** 0.03* 0.00** 1.00 0.47 0.69 0.90             __________________________________________________________________________                                                 0.34                               Legend Abbreviations  Significance levels are indicated as:                    BARREN % =                                                                            Barren Plants (Percent)                                                                       += 10 percent                                              DROP % = Dropped Ears (Percent) *=  5 percent                                  EHT INCH = Ear Height (Inches) **=  1 percent                                  FINAL = Final Stand                                                            MST % = Moisture (Percent)                                                     PHT INCH = Plant Height (Inches)                                               RTL % = Root Lodging (Percent)                                                 SHED GDU = GDUs to Shed                                                        SILK GDU = GDUs to Silk                                                        STL % = Stalk Lodging (Percent)                                                YLD BU/A = Yield (Bushels/Acre)                                         

A. Origin and Breeding History

Inbred plant FBPN was derived from the cross of two inbred plants designated FBLL and LH132 in the summer of 1987. FBLL is a proprietary inbred of DEKALB Genetics Corporation. LH132 is an inbred developed by Holden's Foundation Seeds, Inc.

FBPN shows uniformity and stability within the limits of environmental influence for the traits described hereinafter in Table 14. FBPN has been self-pollinated and ear-rowed a sufficient number of generations with careful attention paid to uniformity of plant type to ensure homozygosity and phenotypic stability. No variant traits have been observed or are expected in FBPN.

Inbred corn plants can be reproduced by planting such inbred seeds, growing the resulting corn plants under self-pollinating or sib-pollinating conditions with adequate isolation using standard techniques well known to an artisan skilled in the agricultural arts. Seeds can be harvested from such a plant using standard, well known procedures.

The origin and breeding history of inbred plant FBPN can be summarized as follows:

    ______________________________________                                         Summer 1987                                                                             The cross FBLL × LH132 was made (nursery book row                  numbers 10,854 and 10,855).                                                   Winter 1987 Bulked SO seed was grown in two rows (nursery                       book row number 5-2220-2221).                                                 Summer 1988 Bulked S1 seed was grown (nursery book row                          numbers 2669-2768).                                                           Winter 1988 S2 ears were grown on an ear-to-row basis                           (nursery book row numbers 155-301 to 159-340).                                Summer 1989 S3 ears were grown on an ear-to-row basis                           (nursery book row numbers 6676-6867).                                         Summer 1990 S4 ears were grown on an ear-to-row basis                           (nursery row numbers 40367-40493).                                            Winter 1990 S5 lines were grown on an ear-to-row basis                          (nursery row numbers J10-14 to J10-46 and P8-34                                to P8-40).                                                                    Summer 1991 S6 lines were grown on an ear-to-row basis and                      evaluated for plant health and standability.                                   FBPN was coded (nursery row numbers 50225-50260).                           ______________________________________                                    

B. Phenotypic Description

In accordance with another aspect of the present invention, there is provided a corn plant having the physiological and morphological characteristics of corn plant FBPN. A description of the physiological and morphological characteristics of corn plant FBPN is presented in Table 14. These traits can be compared to inbred corn plants 2FACC, 2FADB, FBLL, and LH132.

                                      TABLE 14                                     __________________________________________________________________________     MORPHOLOGICAL TRAITS                                                             FOR THE FBPN PHENOTYPE                                                                  VALUE                                                               CHARACTERISTIC                                                                            FBPN   2FACC   2FADB   FBLL   LH132                                 __________________________________________________________________________     1. Stalk                                                                         Diameter (Width) cm.  2.7  2.6  2.0  2.2  2.6                                  Anthocyanin ABSENT ABSENT BASAL-WEAK ABSENT BASAL-WEAK                         Nodes With Brace Roots  2.9  0.9  2.0  2.3  2.3                                Internode Direction STRAIGHT STRAIGHT STRAIGHT STRAIGHT STRAIGHT                                                       Internode Length cm. 15.0 15.8                                                12.7 14.6 12.3                          2. Leaf                                                                        Angle UPRIGHT INTERMED UPRIGHT UPRIGHT UPRIGHT                                 Number 18.6 18.6 19.0 18.9 19.1                                                Color MED GREEN DARK GREEN MED GREEN MED GREEN MED GREEN                       Length cm. 81.4 84.1 72.8 72.2 79.5                                            Width cm.  9.5  9.7  8.6  8.8  8.3                                             Sheath Anthocyanin STRONG ABSENT STRONG -- --                                  Marginal Waves FEW MANY FEW FEW --                                             Longitudinal Creases FEW FEW ABSENT FEW ABSENT                                 3. Tassel                                                                      Attitude COMPACT OPEN COMPACT COMPACT COMPACT                                  Length cm. 43.8 36.0 27.4 26.7 41.7                                            Spike Length cm. 21.4 26.7 20.1 17.9 24.9                                      Peduncle Length cm. 10.6  9.4  6.5  9.5 10.5                                   Branch Number  4.3  6.4  7.8  5.9  7.3                                         Anther Color PINK GRN-YEL RED -- GRN-YEL                                            W/ANTH                                                                    Glume Color GREEN GREEN GREEN GREEN GREEN                                      Glume Band ABSENT ABSENT ABSENT ABSENT ABSENT                                  4. Ear                                                                         Silk Color GRN-YEL GRN-YEL TAN GRN-YEL GRN-YEL                                 Number Per Stalk  1.0  1.0  1.2  1.1  1.0                                      Position (Attitude) UPRIGHT UPRIGHT UPRIGHT UPRIGHT UPRIGHT                    Length cm. 14.3 19.9 13.6 14.4 13.5                                            Shape SEMI- SEMI- SEMI- SEMI- SEMI-CONICAL                                      CONICAL CONICAL CONICAL CONICAL                                               Diameter cm.  4.4  4.8  4.1  4.1  4.1                                          Weight gm. 142.4  216.4  108.0  122.4  117.2                                   Shank Length cm. 12.7 18.4 13.8  9.0 10.0                                      Shank Internode Number  7.7  6.5  8.2  7.1  7.2                                Husk Bract SHORT SHORT SHORT SHORT SHORT                                       Husk Cover cm.  8.1  2.8  5.7  5.1  9.4                                        Husk Opening TIGHT INTERMED INTERMED -- TIGHT                                  Husk Color Fresh GREEN GREEN LT GREEN GREEN GREEN                              Husk Color Dry BUFF BUFF BUFF BUFF BUFF                                        Cob Color RED RED RED RED PINK                                                 Cob Diameter cm.  2.5  2.5  2.3  2.4  2.4                                      Shelling Percent 86.5 84.9 84.1 83.5 84.6                                      5. Kernel                                                                      Row Number 18.6 14.4 14.4 17.3 15.8                                            Number Per Row 28.8 42.0 27.4 28.9 28.8                                        Row Direction CURVED CURVED CURVED CURVED CURVED                               Type DENT DENT DENT DENT DENT                                                  Cap Color YELLOW YELLOW YELLOW -- YELLOW                                       Side Color ORANGE DEEP YEL DEEP YEL -- DEEP YELLOW                             Length (Depth) mm. 12.4 13.0 11.2 11.4 11.0                                    Width mm.  7.4  9.3  8.2  6.9  7.7                                             Thickness  4.5  4.2  4.1  4.2  4.0                                             Weight of 1000K gm. 290.0  348.0  290.3  233.6  246.4                          Endosperm Type NORMAL NORMAL NORMAL NORMAL NORMAL                              Endosperm Color YELLOW YELLOW YELLOW YELLOW YELLOW                           __________________________________________________________________________      *These are typical values. Values may vary due to environment. Other           values that are substantially equivalent are also within the scope of the      invention. Substantially equivalent refers to quantitative traits that         when compared do not show statistical differences of their means.        

VI. Inbred Corn Plant 3AZA1

In accordance with one aspect of the present invention, there is provided a novel inbred corn plant, designated 3AZA1. Inbred corn plant 3AZA1 is a yellow, dent corn inbred that can be compared to inbred corn plants 91BMA2, AQA3, and FBLA. 91BMA2, AQA3 and FBLA are proprietary inbreds of DEKALB Genetics Corporation. 3AZA1 differs significantly (at the 5% level) from these inbred lines in several aspects (See Tables 15, 16, and 17).

                                      TABLE 15                                     __________________________________________________________________________     COMPARISON OF 3AZA1 WITH 91BMA2                                                       BARREN                                                                              DROP                                                                               EHT     MST                                                                               PHT  RTL                                                                               SHED                                                                               SILK                                                                               STL                                                                               YLD                                INBRED % % INCH FINAL % INCH % GDU GDU % BU/A                                __________________________________________________________________________       3AZA1 0.3 0.8 23.4 58.7 16.0 59.5 -0.5 1434.7 1437.2 12.4 47.7                 91BMA2 0.4 1.0 33.0 59.4 18.0 70.1 7.8 1425.2 1430.0 9.2 50.8                  DIFF -0.1 -0.2 -9.6 -0.7 -2.0 -10.6 -8.3 9.5 7.2 3.2 -3.1                      # LOC/TESTS 6 4 5 5 5 5 4 5 5 5 5                                              P VALUE 0.93 0.86 0.00** 0.74 0.16 0.00** 0.36 0.55 0.71 0.66 0.67           __________________________________________________________________________     Legend Abbreviations  Significance levels are indicated as:                    BARREN % =                                                                            Barren Plants (Percent)                                                                       += 10 percent                                              DROP % = Dropped Ears (Percent) *=  5 percent                                  EHT INCH = Ear Height (Inches) **=  1 percent                                  FINAL = Final Stand                                                            MST % = Moisture (Percent)                                                     PHT INCH = Plant Height (Inches)                                               RTL % = Root Lodging (Percent)                                                 SHED GDU = GDUs to Shed                                                        SILK GDU = GDUs to Silk                                                        STL % = Stalk Lodging (Percent)                                                YLD BU/A = Yield (Bushels/Acre)                                         

                                      TABLE 16                                     __________________________________________________________________________     COMPARISON OF 3AZA1 WITH AQA3                                                         BARREN                                                                              DROP                                                                               EHT     MST                                                                               PHT RTL                                                                               SHED                                                                               SILK                                                                               STL YLD                                INBRED % % INCH FINAL % INCH % GDU GDU % BU/A                                __________________________________________________________________________       3AZA1 0.4 0.6 25.6 56.4 16.0 63.1 0.0 1328.8 1326.1 5.2 56.7                   AQA3 0.0 0.2 25.4 57.8 15.6 58.6 2.3 1321.3 1330.7 12.7 51.2                   DIFF 0.4 0.3 0.2 -1.4 0.4 4.5 -2.3 7.4 -4.5 -7.5 5.6                           #LOC/TESTS 18 16 17 17 13 17 16 17 17 17 17                                    P VALUE 0.42 0.02* 0.81 0.30 0.57 0.00** 0.66 0.46 0.39 0.00** 0.20          __________________________________________________________________________     Legend Abbreviations  Significance levels are indicated as:                    BARREN % =                                                                            Barren Plants (Percent)                                                                       += 10 percent                                              DROP % = Dropped Ears (Percent) *=  5 percent                                  EHT INCH = Ear Height (Inches) **=  1 percent                                  FINAL = Final Stand                                                            MST % = Moisture (Percent)                                                     PHT INCH = Plant Height (Inches)                                               RTL % = Root Lodging (Percent)                                                 SHED GDU = GDUs to Shed                                                        SILK GDU = GDUs to Silk                                                        STL % = Stalk Lodging (Percent)                                                YLD BU/A = Yield (Bushels/Acre)                                         

                                      TABLE 17                                     __________________________________________________________________________     COMPARISON OF 3AZA1 WITH FBLA                                                        BARREN                                                                              DROP                                                                               EHT     MST PHT RTL                                                                               SHED SILK STL                                                                               YLD                               INBRED % % INCH FINAL % INCH % GDU GDU % BU/A                                __________________________________________________________________________       3AZA1 0.4 0.6 25.6 56.4 16.0 63.1 0.0 1328.8 1326.1 5.2 56.7                   FBLA 0.4 0.3 29.2 59.6 17.5 68.5 0.6 1435.6 1454.3 1.2 63.8                    DIFF 0.1 0.3 -3.7 -3.2 -1.5 -5.4 -0.6 -106.8 -128.2 4.0 -7.1                   # 18 16 17 17 15 17 16 17 17 17 17                                             LOC/TESTS                                                                      P VALUE 0.77 0.05* 0.00** 0.02* 0.06+ 0.00** 0.99 0.00** 0.00** 0.20                                                        0.06+                           __________________________________________________________________________     Legend Abbreviations  Significance levels are indicated as:                    BARREN % =                                                                            Barren Plants (Percent)                                                                       += 10 percent                                              DROP % = Dropped Ears (Percent) *=  5 percent                                  EHT INCH = Ear Height (Inches) **=  1 percent                                  FINAL = Final Stand                                                            MST % = Moisture (Percent)                                                     PHT INCH = Plant Height (Inches)                                               RTL % = Root Lodging (Percent)                                                 SHED GDU = GDUs to Shed                                                        SILK GDU = GDUs to Silk                                                        STL % = Stalk Lodging (Percent)                                                YLD BU/A = Yield (Bushels/Acre)                                         

A. Origin and Breeding History

Inbred plant 3AZA1 was derived from the cross of two inbred plants designated AQA3 and QFAR (both proprietary inbreds of DEKALB Genetics Corporation) in the winter of 1987.

3AZA1 shows uniformity and stability within the limits of environmental influence for the traits described hereinafter in Table 18. 3AZA1 has been self-pollinated and ear-rowed a sufficient number of generations with careful attention paid to uniformity of plant type to ensure homozygosity and phenotypic stability. No variant traits have been observed or are expected in 3AZA1.

Inbred corn plants can be reproduced by planting such inbred seeds, growing the resulting corn plants under self-pollinating or sib-pollinating conditions with adequate isolation using standard techniques well known to an artisan skilled in the agricultural arts. Seeds can be harvested from such a plant using standard, well known procedures.

The origin and breeding history of inbred plant 3AZA1 can be summarized as follows:

    ______________________________________                                         Winter 1987                                                                             The inbred line AQA3 was crossed to QFAR (both                           AQA3 and QFAR are proprietary inbreds of DEKALB                                Genetics Corporation).                                                        Spring 1988 Plants of the cross AQA3.QFAR were grown and self-                  pollinated.                                                                   Summer 1988 S1 seed was grown.                                                 Winter 1988 S2 seed was grown ear-to-row (nursery book range                    532, rows 21-70).                                                             Summer 1989 S3 seed was grown ear-to-row (nursery book range                    317, rows 64-100, and range 318, rows 70-100.                                 Summer 1990 S4 seed was grown ear-to-row (nursery book range                    415 rows 42-87).                                                              Winter 1990 S5 seed was grown ear-to-row (nursery book range                    R13, row 20).                                                                 Summer 1991 S6 seed was grown one ear to two rows. Seed from                    ear #2 nursery book range 3, rows 97 and 98 were                               bulked and named 3AZA1.                                                     ______________________________________                                    

B. Phenotypic Description

In accordance with another aspect of the present invention, there is provided a corn plant having the physiological and morphological characteristics of corn plant 3AZA1. A description of the physiological and morphological characteristics of corn plant 3AZA1 is presented in Table 18. These traits can be compared to inbred corn plants 91BMA2, AQA3, and FBLA.

                                      TABLE 18                                     __________________________________________________________________________     MORPHOLOGICAL TRAITS                                                             FOR THE 3AZA1 PHENOTYPE                                                                 VALUE                                                               CHARACTERISTIC                                                                            3AZA1  91BMA2 AQA3   FBLA                                           __________________________________________________________________________     1. Stalk                                                                         Diameter (Width) cm.  2.0  1.8  2.2  1.6                                       Anthocyanin ABSENT ABSENT ABSENT ABSENT                                        Nodes With Brace Roots  2.0  1.1  1.5  0.8                                     Internode Direction STRAIGHT STRAIGHT STRAIGHT STRAIGHT                        Internode Length cm. 14.0 12.1 11.3 13.3                                       2. Leaf                                                                        Angle INTERMED INTERMED INTERMED INTERMED                                      Color MED GREEN MED GREEN MED GREEN DARK GREEN                                 Number 19.0 19.0 18.5 19.7                                                     Length cm. 66.2 65.5 67.9 68.9                                                 Width cm.  7.9  8.4  8.3  8.0                                                  Sheath Anthocyanin WEAK -- ABSENT ABSENT                                       Sheath Pubescence MEDIUM LIGHT MEDIUM LIGHT                                    Marginal Waves ABSENT FEW FEW FEW                                              Longitudinal Creases FEW FEW FEW FEW                                           3. Tassel                                                                      Branch Angle INTERMED UPRIGHT INTERMED INTERMED                                Length cm. 33.0 32.0 33.0 29.2                                                 Spike Length cm. 24.4 23.2 23.1 23.0                                           Peduncle Length cm.  3.6  7.7  3.6  7.1                                        Branch Number  3.8  4.0  5.5  4.4                                              Anther Color TAN -- GRN-YEL TAN WK ANTH                                        Glume Color GREEN GREEN GREEN GREEN                                            Glume Band ABSENT ABSENT ABSENT ABSENT                                         4. Ear                                                                         Silk Color GRN-YEL GRN-YEL GRN-YEL PINK MED ANTH                               Number Per Stalk  1.6  1.1  1.4  1.1                                           Position (Attitude) PENDANT UPRIGHT UPRIGHT UPRIGHT                            Length cm. 16.4 13.5 16.3 13.2                                                 Shape SEMI-CON SEMI-CON SEMI-CON SEMI-CON                                      Diameter cm. 33.8 34.0 36.0 38.0                                               Weight gm. 89.8 92.5 93.1 99.5                                                 Shank Length cm. 20.7 13.9 14.9 16.1                                           Shank Internode Number  6.0  6.4  7.1  6.5                                     Husk Bract SHORT SHORT SHORT SHORT                                             Husk Cover cm.  1.9  5.9  3.2  5.7                                             Husk Color Fresh GREEN GREEN LT GRN GREEN                                      Husk Color Dry BUFF BUFF BUFF BUFF                                             Cob Color RED RED RED RED                                                      Cob Diameter cm. 17.2  2.0  2.1  2.3                                           Shelling Percent 85.8 82.7 85.0 80.0                                           5. Kernel                                                                      Row Number 12.3 12.7 15.1 14.1                                                 Number Per Row 32.2 27.8 33.2 26.4                                             Row Direction CURVED CURVED CURVED CURVED                                      Type DENT INTERMED DENT DENT                                                   Cap Color YELLOW YELLOW LEMON YEL YELLOW                                       Side Color ORANGE ORANGE ORANGE BROWN                                          Length (Depth) mm.  9.2  9.6  9.6 10.3                                         Width mm.  7.3  7.4  7.1  8.0                                                  Thickness  4.2  3.5  3.8  4.4                                                  Weight of 1000K gm. 223.8  225.3  173.7  254.0                                 Endosperm Type NORMAL NORMAL NORMAL NORMAL                                     Endosperm Color YELLOW YELLOW YELLOW YELLOW                                  __________________________________________________________________________      *These are typical values. Values may vary due to environment. Other           values that are substantially equivalent are also within the scope of the      invention. Substantially equivalent refers to quantitative traits that         when compared do not show statistical differences of their means.        

VII. Additional Inbred Corn Plants

The inbred corn plants, 85DGD1, MBZA, MBWZ, and 3IJI1 have been employed with the corn plants of the present invention in order to produce several exemplary hybrids. A description of the physiological and morphological characteristics of these corn plants is presented herein. Table 19 concerns 85DGD1; Table 20 concerns MBZA; Table 21 concerns MBWZ; and Table 22 concerns 3IJI1. Additional information for these inbred corn plants is presented in the following co-pending U.S. patent applications: 85DGD1, Ser. No. 08/384,266, filed Feb. 3, 1995; MBZA, Ser. No. 08/182,616, filed Jan. 14, 1994; MBWZ, Ser. No. 08/175,109, filed Dec. 29, 1993; and 3IJI1, Ser. No. 08/131,158, filed Oct. 1, 1993; the disclosures of each of which applications are specifically incorporated herein by reference.

                  TABLE 19                                                         ______________________________________                                         MORPHOLOGICAL TRAITS FOR                                                         THE 85DGD1 PHENOTYPE                                                           YEAR OF DATA: 1992, 1993                                                           CHARACTERISTIC VALUE*                                                    ______________________________________                                         1. Stalk                                                                         Diameter (Width) cm.  2.3                                                      Nodes With Brace Roots  2.0                                                    Internode Length cm. 15.0                                                      2. Leaf                                                                        Number 19.9                                                                    Color MEDIUM GREEN                                                             Length cm. 77.6                                                                Width cm.  9.2                                                                 Marginal Waves FEW                                                             3. Tassel                                                                      Length cm. 36.3                                                                Spike Length cm. 21.3                                                          Peduncle Length cm. 11.8                                                       Attitude COMPACT                                                               Branch Angle UPRIGHT                                                           Branch Number  6.8                                                             Glume Color GREEN                                                              Glume Band ABSENT                                                              4. Ear                                                                         Silk Color GREEN-YELLOW                                                        Number Per Stalk  1.3                                                          Position (Attitude) UPRIGHT                                                    Length cm. 13.4                                                                Shape SEMI-CONICAL                                                             Diameter cm. 40.6                                                              Weight gm. 106.3                                                               Shank Length cm. 12.4                                                          Shank Internode Number  6.7                                                    Husk Bract SHORT                                                               Husk Cover cm.  7.9                                                            Husk Color Fresh GREEN                                                         Husk Color Dry BUFF                                                            Cob Diameter cm. 24.4                                                          Cob Strength STRONG                                                            Shelling Percent 82.2                                                          5. Kernel                                                                      Row Number 15.6                                                                Number Per Row 27.0                                                            Row Direction CURVED                                                           Type DENT                                                                      Side Color DEEP YELLOW                                                         Length (Depth) mm. 11.0                                                        Width mm.  7.4                                                                 Thickness  4.3                                                                 Weight of 1000K gm. 258.3                                                      Endosperm Type NORMAL                                                          Endosperm Color YELLOW                                                       ______________________________________                                          *These are typical values. Values may vary due to environment. Other           values that are substantially equivalent are also within the scope of the      invention. Substantially equivalent refers to quantitative traits that         when compared do not show statistical differences of their means.        

                  TABLE 20                                                         ______________________________________                                         MORPHOLOGICAL TRAITS FOR                                                         THE MBZA PHENOTYPE                                                             YEAR OF DATA: 1991 AND 1992                                                        CHARACTERISTIC VALUE                                                     ______________________________________                                         1. Stalk                                                                         Diameter (Width) cm.  2.3                                                      Anthocyanin ABSENT                                                             Nodes With Brace Roots  1.2                                                    Brace Root Color GREEN                                                         Internode Length cm. 12.5                                                      2. Leaf                                                                        Angle UPRIGHT                                                                  Number 19.0                                                                    Color DARK GREEN                                                               Length cm. 82.2                                                                Width cm.  9.8                                                                 Sheath Anthocyanin BASAL STRONG                                                Sheath Pubescence LIGHT                                                        Marginal Waves FEW                                                             Longitudinal Creases FEW                                                       3. Tassel                                                                      Length cm. 35.4                                                                Spike Length cm. 26.0                                                          Peduncle Length cm.  5.4                                                       Attitude COMPACT                                                               Branch Angle UPRIGHT                                                           Branch Number  9.3                                                             Anther Color RED                                                               Glume Band ABSENT                                                              4. Ear                                                                         Silk Color RED                                                                 Number Per Stalk  1.5                                                          Length cm. 16.6                                                                Shape SEMI-CONICAL                                                             Diameter cm.  4.0                                                              Weight gm. 114.2                                                               Shank Length cm. 14.5                                                          Shank Internode Number  7.6                                                    Husk Cover  7.1                                                                Husk Opening INTERMEDIATE                                                      Husk Color Fresh GREEN                                                         Husk Color Dry BUFF                                                            Cob Diameter cm. RED                                                           Cob Color  2.2                                                                 Cob Strength WEAK                                                              Shelling Percent 85.9                                                          5. Kernel                                                                      Row Number 14.9                                                                Number Per Row 35.5                                                            Row Direction CURVED                                                           Cap Color YELLOW                                                               Side Color DEEP YELLOW                                                         Length (Depth) mm. 10.7                                                        Width cm.  7.9                                                                 Thickness  3.8                                                                 Weight of 1000K gm. 221.7                                                      Endosperm Type NORMAL                                                          Endosperm Color YELLOW                                                       ______________________________________                                          *These are typical values. Values may vary due to environment. Other           values that are substantially equivalent are also within the scope of the      invention. Substantially equivalent refers to quantitative traits that         when compared do not show statistical differences of their means.        

                  TABLE 21                                                         ______________________________________                                         MORPHOLOGICAL TRAITS FOR THE                                                     MBWZ PHENOTYPE                                                                 YEAR OF DATA 1990-1991                                                             CHARACTERISTIC VALUE                                                     ______________________________________                                         1. Stalk                                                                         Diameter (Width) cm.  2.2                                                      Anthocyanin STRONG                                                             Nodes With Brace Roots  1.7                                                    Brace Root Color GREEN                                                         Internode Direction STRAIGHT                                                   Internode Length cm. 14.9                                                      2. Leaf                                                                        Angle UPRIGHT                                                                  Number 20.1                                                                    Color MEDIUM GREEN                                                             Length cm. 83.9                                                                Width cm.  9.0                                                                 Sheath Pubescence LIGHT                                                        Longitudinal Creases ABSENT                                                    3. Tassel                                                                      Length cm. 32.6                                                                Spike Length cm. 25.9                                                          Peduncle Length cm.  9.1                                                       Attitude COMPACT                                                               Branch Angle UPRIGHT                                                           Branch Number  4.8                                                             Anther Color TAN                                                               Glume Color GREEN                                                              Glume Band ABSENT                                                              4. Ear                                                                         Silk Color PINK                                                                Number Per Stalk  1.4                                                          Position (Attitude) UPRIGHT                                                    Length cm. 15.7                                                                Shape SEMI-CONICAL                                                             Diameter cm.  4.0                                                              Weight gm. 110.9                                                               Shank Length cm. 10.2                                                          Shank Internodes  7.9                                                          Husk Bract SHORT                                                               Husk Cover cm.  6.3                                                            Husk Opening INTERMEDIATE                                                      Husk Color Fresh GREEN                                                         Husk Color Dry BUFF                                                            Cob Diameter cm.  2.4                                                          Cob Color RED                                                                  Cob Strength WEAK                                                              Shelling Percent 82.6                                                          5. Kernel                                                                      Row Number 15.7                                                                Number Per Row 30.4                                                            Row Direction CURVED                                                           Type DENT                                                                      Cap Color YELLOW                                                               Side Color ORANGE                                                              Length (Depth) mm. 10.1                                                        Width mm.  7.6                                                                 Thickness  4.4                                                                 Weight of 1000K gm. 244.5                                                      Endosperm Type NORMAL                                                          Endosperm Color YELLOW                                                       ______________________________________                                          *These are typical values. Values may vary due to environment. Other           values that are substantially equivalent are also within the scope of the      invention. Substantially equivalent refers to quantitative traits that         when compared do not show statistical differences of their means.        

                  TABLE 22                                                         ______________________________________                                         MORPHOLOGICAL TRAITS FOR THE                                                     3IJI1 PHENOTYPE                                                                YEAR OF DATA 1990-1991                                                             CHARACTERISTIC VALUE                                                     ______________________________________                                         1. Stalk                                                                         Diameter (Width) cm.  2.8                                                      Anthocyanin ABSENT                                                             Nodes With Brace Roots  1.0                                                    Brace Root Color GREEN                                                         Internode Direction STRAIGHT                                                   Internode Length cm. 11.9                                                      2. Leaf                                                                        Angle INTERMEDIATE                                                             Number 16.9                                                                    Color MEDIUM GREEN                                                             Length cm. 69.8                                                                Width cm.  9.7                                                                 Sheath Anthocyanin ABSENT                                                      Sheath Pubescence LIGHT                                                        Marginal Waves FEW                                                             Longitudinal Creases FEW                                                       3. Tassel                                                                      Length cm. 33.9                                                                Spike Length cm. 25.9                                                          Peduncle Length cm.  3.0                                                       Attitude OPEN                                                                  Branch Angle INTERMEDIATE                                                      Branch Number  5.9                                                             Anther Color GREEN YELLOW                                                      Glume Color GREEN                                                              Glume Band ABSENT                                                              4. Ear                                                                         Silk Color PINK                                                                Number Per Stalk  1.1                                                          Position (Attitude) UPRIGHT                                                    Length cm. 13.5                                                                Shape SEMI-CONICAL                                                             Diameter cm.  4.1                                                              Weight gm. 99.6                                                                Shank Length cm. 15.2                                                          Shank Internodes  6.9                                                          Husk Bract SHORT                                                               Husk Cover cm.  6.8                                                            Husk Opening INTERMEDIATE                                                      Husk Color Fresh GREEN                                                         Husk Color Dry BUFF                                                            Cob Diameter cm.  2.5                                                          Cob Color RED                                                                  Cob Strength STRONG                                                            Shelling Percent 82.8                                                          5. Kernel                                                                      Row Number 16.1                                                                Number Per Row 25.0                                                            Row Direction CURVED                                                           Type DENT                                                                      Cap Color YELLOW                                                               Side Color ORANGE                                                              Length (Depth) mm. 10.8                                                        Width mm.  8.4                                                                 Thickness  4.9                                                                 Weight of 1000K gm. 260.5                                                      Endosperm Type NORMAL                                                          Endosperm Color YELLOW                                                       ______________________________________                                          *These are typical values. Values may vary due to environment. Other           values that are substantially equivalent are also within the scope of the      invention. Substantially equivalent refers to quantitative traits that         when compared do not show statistical differences of their means.        

VIII. Single Gene Conversions

When the term inbred corn plant is used in the context of the present invention, this also includes any single gene conversions of that inbred. The term single gene converted plant as used herein refers to those corn plants which are developed by a plant breeding technique called backcrossing wherein essentially all of the desired morphological and physiological characteristics of an inbred are recovered in addition to the single gene transferred into the inbred via the backcrossing technique. Backcrossing methods can be used with the present invention to improve or introduce a characteristic into the inbred. The term backcrossing as used herein refers to the repeated crossing of a hybrid progeny back to one of the parental corn plants for that inbred. The parental corn plant which contributes the gene for the desired characteristic is termed the nonrecurrent or donor parent. This terminology refers to the fact that the nonrecurrent parent is used one time in the backcross protocol and therefore does not recur. The parental corn plant to which the gene or genes from the nonrecurrent parent are transferred is known as the recurrent parent as it is used for several rounds in the backcrossing protocol (Poehlman & Sleper, 1994; Fehr, 1987). In a typical backcross protocol, the original inbred of interest (recurrent parent) is crossed to a second inbred (nonrecurrent parent) that carries the single gene of interest to be transferred. The resulting progeny from this cross are then crossed again to the recurrent parent and the process is repeated until a corn plant is obtained wherein essentially all of the desired morphological and physiological characteristics of the recurrent parent are recovered in the converted plant, in addition to the single transferred gene from the nonrecurrent parent.

The selection of a suitable recurrent parent is an important step for a successful backcrossing procedure. The goal of a backcross protocol is to alter or substitute a single trait or characteristic in the original inbred. To accomplish this, a single gene of the recurrent inbred is modified or substituted with the desired gene from the nonrecurrent parent, while retaining essentially all of the rest of the desired genetic, and therefore the desired morphological and physiological constitution of the original inbred. The choice of the particular nonrecurrent parent will depend on the purpose of the backcross, one of the major purposes is to add some commercially desirable, agronomically important trait to the plant. The exact backcrossing protocol will depend on the characteristic or trait being altered to determine an appropriate testing protocol. Although backcrossing methods are simplified when the characteristic being transferred is a dominant allele, a recessive allele may also be transferred. In this instance it may be necessary to introduce a test of the progeny to determine if the desired characteristic has been successfully transferred.

Many single gene traits have been identified that are not regularly selected for in the development of a new inbred but that can be improved by backcrossing techniques. Examples of these traits include but are not limited to, male sterility, waxy starch, herbicide resistance, resistance for bacterial, fungal, or viral disease, insect resistance, male fertility, enhanced nutritional quality, and industrial usage. These genes are generally inherited through the nucleus. Some known exceptions to this are the genes for male sterility, some of which are inherited cytoplasmically, but still act as single gene traits. Several of these single gene traits are described in U.S. Ser. No. 07/113,561, filed Aug. 25, 1993, the disclosure of which is specifically hereby incorporated by reference.

Direct selection may be applied where the single gene acts as a dominant trait. An example might be the herbicide resistance trait. For this selection process, the progeny of the initial cross are sprayed with the herbicide prior to the backcrossing. The spraying eliminates any plants which do not have the desired herbicide resistance characteristic, and only those plants which have the herbicide resistance gene are used in the subsequent backcross. This process is then repeated for all additional backcross generations.

The waxy characteristic is an example of a recessive trait. In this example, the progeny resulting from the first backcross generation (BC1) must be grown and selfed. A test is then run on the selfed seed from the BC1 plant to determine which BC1 plants carried the recessive gene for the waxy trait. In other recessive traits, additional progeny testing, for example growing additional generations such as the BC1S1 may be required to determine which plants carry the recessive gene.

IX. Origin and Breeding History of an Exemplary Single Gene Converted Plant

85DGD1 MLms is a single gene conversion of 85DGD1 to cytoplasmic male sterility. 85DGD1 MLms was derived using backcross methods. 85DGD1 (a proprietary inbred of DEKALB Genetics Corporation) was used as the recurrent parent and MLms, a germplasm source carrying ML cytoplasmic sterility, was used as the nonrecurrent parent. The breeding history of the single gene converted inbred 85DGD1 MLms can be summarized as follows:

    ______________________________________                                         Hawaii Nurseries                                                                            Made up S-O: Female row 585 male row                                Planting Date 4-2-92 500                                                       Hawaii Nurseries S-O was grown and plants were                                 Planting Date 7-15-92 backcrossed times 85DGD1 (rows 444 ×                            443)                                                              Hawaii Nurseries Bulked seed of the BC1 was grown and                          Planting Date 11-18-92 backcrossed times 85DGD1 (rows V3-27 ×                         V3-26)                                                            Hawaii Nurseries Bulked seed of the BC2 was grown and                          Planting Date 4-2-93 backcrossed times 85DGD1 (rows 37 ×                  36)                                                                           Hawaii Nurseries Bulked seed of the BC3 was grown and                          Planting Date 7-14-93 backcrossed times 85DGD1 (rows 99 ×                             98)                                                               Hawaii Nurseries Bulked seed of BC4 was grown and                              Planting Date 10-28-93 backcrossed times 85DGD1 (rows KS-63 ×                         KS-62)                                                            Summer 1994 A single ear of the BC5 was grown and                               backcrossed times 85DGD1 (MC94-822 ×                                     MC94-822-7)                                                                   Winter 1994 Bulked seed of the BCE was grown and                                backcrossed times 85DGD1 (3Q-1 × 3Q-2)                                  Summer 1995 Seed of the BC7 was bulked and named                                85DGD1 MLms.                                                                ______________________________________                                    

X. Tissue Culture and in vitro Regeneration of Corn Plants

A further aspect of the invention relates to tissue culture of corn plants designated, separately, 85CS01, RQAA8, FBPN, or 3AZA1. As used herein, the term "tissue culture" indicates a composition comprising isolated cells of the same or a different type or a collection of such cells organized into parts of a plant. Exemplary types of tissue cultures are plant protoplast, plant calli, plant clumps, and plant cells that are intact in plants or parts of plants, such as embryos, pollen, flowers, kernels, ears, cobs, leaves, husks, stalks, roots, root tips, anthers, silk and the like. In a preferred embodiment, tissue culture is embryos, protoplast, meristematic cells, pollen, leaves or anthers. Means for preparing and maintaining plant tissue culture are well known in the art. By way of example, a tissue culture comprising organs such as tassels or anthers, has been used to produce regenerated plants. (See, U.S. patent application Ser. Nos. 07/992,637, filed Dec. 18, 1992 and 07/995,938, filed Dec. 21, 1992, now issued as U.S. Pat. No. 5,322,789, issued Jun. 21, 1994, the disclosures of which are incorporated herein by reference).

A. Tassel/Anther Culture

Tassels contain anthers which in turn enclose microspores. Microspores develop into pollen. For anther/microspore culture, if tassels are the plant composition, they are preferably selected at a stage when the microspores are uninucleate, that is, include only one, rather than 2 or 3 nuclei. Methods to determine the correct stage are well known to those skilled in the art and include mitramycin fluorescent staining (Pace et al., 1987), trypan blue (preferred) and acetocarmine squashing. The mid-uninucleate microspore stage has been found to be the developmental stage most responsive to the subsequent methods disclosed to ultimately produce plants.

Although microspore-containing plant organs such as tassels can generally be pretreated at any cold temperature below about 25° C., a range of 4 to 25° C. is preferred, and a range of 8 to 14° C. is particularly preferred. Although other temperatures yield embryoids and regenerated plants, cold temperatures produce optimum response rates compared to pretreatment at temperatures outside the preferred range. Response rate is measured as either the number of embryoids or the number of regenerated plants per number of microspores initiated in culture.

Although not required, when tassels are employed as the plant organ, it is generally preferred to sterilize their surface. Following surface sterilization of the tassels, for example, with a solution of calcium hypochloride, the anthers are removed from about 70 to 150 spikelets (small portions of the tassels) and placed in a preculture or pretreatment medium. Larger or smaller amounts can be used depending on the number of anthers.

When one elects to employ tassels directly, tassels are preferably pretreated at a cold temperature for a predefined time, preferably at 10° C. for about 4 days. After pretreatment of a whole tassel at a cold temperature, dissected anthers are further pretreated in an environment that diverts microspores from their developmental pathway. The function of the preculture medium is to switch the developmental program from one of pollen development to that of embryoid/callus development. An embodiment of such an environment in the form of a preculture medium includes a sugar alcohol, for example mannitol or sorbitol, inositol or the like. An exemplary synergistic combination is the use of mannitol at a temperature of about 10° C. for a period ranging from about 10 to 14 days. In a preferred embodiment, 3 ml of 0.3 M mannitol combined with 50 mg/l of ascorbic acid, silver nitrate and colchicine is used for incubation of anthers at 10° C. for between 10 and 14 days. Another embodiment is to substitute sorbitol for mannitol. The colchicine produces chromosome doubling at this early stage. The chromosome doubling agent is preferably only present at the preculture stage.

It is believed that the mannitol or other similar carbon structure or environmental stress induces starvation and functions to force microspores to focus their energies on entering developmental stages. The cells are unable to use, for example, mannitol as a carbon source at this stage. It is believed that these treatments confuse the cells causing them to develop as embryoids and plants from microspores. Dramatic increases in development from these haploid cells, as high as 25 embryoids in 10⁴ microspores, have resulted from using these methods.

In embodiments where microspores are obtained from anthers, microspores can be released from the anthers into an isolation medium following the mannitol preculture step. One method of release is by disruption of the anthers, for example, by chopping the anthers into pieces with a sharp instrument, such as a razor blade, scalpel or Waring blender. The resulting mixture of released microspores, anther fragments and isolation medium are then passed through a filter to separate microspores from anther wall fragments. An embodiment of a filter is a mesh, more specifically, a nylon mesh of about 112 μm pore size. The filtrate which results from filtering the microspore-containing solution is preferably relatively free of anther fragments, cell walls and other debris.

In a preferred embodiment, isolation of microspores is accomplished at a temperature below about 25° C. and, preferably at a temperature of less than about 15° C. Preferably, the isolation media, dispersing tool (e.g., razor blade) funnels, centrifuge tubes and dispersing container (e.g., petri dish) are all maintained at the reduced temperature during isolation. The use of a precooled dispersing tool to isolate maize microspores has been reported (Gaillard et al., 1991).

Where appropriate and desired, the anther filtrate is then washed several times in isolation medium. The purpose of the washing and centrifugation is to eliminate any toxic compounds which are contained in the non-microspore part of the filtrate and are created by the chopping process. The centrifugation is usually done at decreasing spin speeds, for example, 1000, 750, and finally 500 rpms.

The result of the foregoing steps is the preparation of a relatively pure tissue culture suspension of microspores that are relatively free of debris and anther remnants.

To isolate microspores, an isolation media is preferred. An isolation media is used to separate microspores from the anther walls while maintaining their viability and embryogenic potential. An illustrative embodiment of an isolation media includes a 6 percent sucrose or maltose solution combined with an antioxidant such as 50 mg/l of ascorbic acid, 0.1 mg/l biotin and 400 mg/l of proline, combined with 10 mg/l of nicotinic acid and 0.5 mg/l AgNO₃. In another embodiment, the biotin and proline are omitted.

An isolation media preferably has a higher antioxidant level where used to isolate microspores from a donor plant (a plant from which a plant composition containing a microspore is obtained) that is field grown in contrast to greenhouse grown. A preferred level of ascorbic acid in an isolation medium is from about 50 mg/l to about 125 mg/l and, more preferably from about 50 mg/l to about 100 mg/l.

One can find particular benefit in employing a support for the microspores during culturing and subculturing. Any support that maintains the cells near the surface can be used. The microspore suspension is layered onto a support, for example by pipetting. There are several types of supports which are suitable and are within the scope of the invention. An illustrative embodiment of a solid support is a TRANSWELL® culture dish. Another embodiment of a solid support for development of the microspores is a bilayer plate wherein liquid media is on top of a solid base. Other embodiments include a mesh or a millipore filter. Preferably, a solid support is a nylon mesh in the shape of a raft. A raft is defined as an approximately circular support material which is capable of floating slightly above the bottom of a tissue culture vessel, for example, a petri dish, of about a 60 or 100 mm size, although any other laboratory tissue culture vessel will suffice. In an illustrative embodiment, a raft is about 55 mm in diameter.

Culturing isolated microspores on a solid support, for example, on a 10 μm pore nylon raft floating on 2.2 ml of medium in a 60 mm petri dish, prevents microspores from sinking into the liquid medium and thus avoiding low oxygen tension. These types of cell supports enable the serial transfer of the nylon raft with its associated microspore/embryoids ultimately to full strength medium containing activated charcoal and solidified with, for example, GELRITE™ (solidifying agent). The charcoal is believed to absorb toxic wastes and intermediaries. The solid medium allows embryoids to mature.

The liquid medium passes through the mesh while the microspores are retained and supported at the medium-air interface. The surface tension of the liquid medium in the petri dish causes the raft to float. The liquid is able to pass through the mesh: consequently, the microspores stay on top. The mesh remains on top of the total volume of liquid medium. An advantage of the raft is to permit diffusion of nutrients to the microspores. Use of a raft also permits transfer of the microspores from dish to dish during subsequent subculture with minimal loss, disruption or disturbance of the induced embryoids that are developing. The rafts represent an advantage over the multi-welled TRANSWELL® plates, which are commercially available from COSTAR, in that the commercial plates are expensive. Another disadvantage of these plates is that to achieve the serial transfer of microspores to subsequent media, the membrane support with cells must be peeled off the insert in the wells. This procedure does not produce as good a yield nor as efficient transfers, as when a mesh is used as a vehicle for cell transfer.

The culture vessels can be further defined as either (1) a bilayer 60 mm petri plate where the bottom 2 ml of medium are solidified with 0.7 percent agarose overlaid with 1 mm of liquid containing the microspores; (2) a nylon mesh raft wherein a wafer of nylon is floated on 1.2 ml of medium and 1 ml of isolated microspores is pipetted on top; or (3) TRANSWELL® plates wherein isolated microspores are pipetted onto membrane inserts which support the microspores at the surface of 2 ml of medium.

After the microspores have been isolated, they are cultured in a low strength anther culture medium until about the 50 cell stage when they are subcultured onto an embryoid/callus maturation medium. Medium is defined at this stage as any combination of nutrients that permit the microspores to develop into embryoids or callus. Many examples of suitable embryoid/callus promoting media are well known to those skilled in the art. These media will typically comprise mineral salts, a carbon source, vitamins, growth regulations. A solidifying agent is optional. A preferred embodiment of such a media is referred to by the inventor as the "D medium" which typically includes 6N1 salts, AgNO₃ and sucrose or maltose.

In an illustrative embodiment, 1 ml of isolated microspores are pipetted onto a 10 μm nylon raft and the raft is floated on 1.2 ml of medium "D", containing sucrose or, preferably maltose. Both calli and embryoids can develop. Calli are undifferentiated aggregates of cells. Type I is a relatively compact, organized and slow growing callus. Type II is a soft, friable and fast-growing one. Embryoids are aggregates exhibiting some embryo-like structures. The embryoids are preferred for subsequent steps to regenerating plants. Culture medium "D" is an embodiment of medium that follows the isolation medium and replaces it. Medium "D" promotes growth to an embryoid/callus. This medium comprises 6N1 salts at 1/8 the strength of a basic stock solution, (major components) and minor components, plus 12 percent sucrose or, preferably 12 percent maltose, 0.1 mg/l B1, 0.5 mg/l nicotinic acid, 400 mg/l proline and 0.5 mg/l silver nitrate. Silver nitrate is believed to act as an inhibitor to the action of ethylene. Multi-cellular structures of approximately 50 cells each generally arise during a period of 12 days to 3 weeks. Serial transfer after a two week incubation period is preferred.

After the petri dish has been incubated for an appropriate period of time, preferably two weeks, in the dark at a predefined temperature, a raft bearing the dividing microspores is transferred serially to solid based media which promotes embryo maturation. In an illustrative embodiment, the incubation temperature is 30° C. and the mesh raft supporting the embryoids is transferred to a 100 mm petri dish containing the 6N1-TGR-4P medium, an "anther culture medium." This medium contains 6N1 salts, supplemented with 0.1 mg/l TIBA, 12 percent sugar (sucrose, maltose or a combination thereof), 0.5 percent activated charcoal, 400 mg/l proline, 0.5 mg/l B, 0.5 mg/l nicotinic acid, and 0.2 percent GELRITE™ (solidifying agent) and is capable of promoting the maturation of the embryoids. Higher quality embryoids, that is, embryoids which exhibit more organized development, such as better shoot meristem formation without precocious germination were typically obtained with the transfer to full strength medium compared to those resulting from continuous culture using only, for example, the isolated microspore culture (IMC) Medium "D." The maturation process permits the pollen embryoids to develop further in route toward the eventual regeneration of plants. Serial transfer occurs to full strength solidified 6N1 medium using either the nylon raft, the TRANSWELL® membrane or bilayer plates, each one requiring the movement of developing embryoids to permit further development into physiologically more mature structures.

In an especially preferred embodiment, microspores are isolated in an isolation media comprising about 6 percent maltose, cultures for about two weeks in an embryoid/calli induction medium comprising about 12 percent maltose and then transferred to a solid medium comprising about 12 percent sucrose.

At the point of transfer of the raft after about two weeks incubation, embryoids exist on a nylon support. The purpose of transferring the raft with the embryoids to a solidified medium after the incubation is to facilitate embryo maturation. Mature embryoids at this point are selected by visual inspection indicated by zygotic embryo-like dimensions and structures and are transferred to the shoot initiation medium. It is preferred that shoots develop before roots, or that shoots and roots develop concurrently. If roots develop before shoots, plant regeneration can be impaired. To produce solidified media, the bottom of a petri dish of approximately 100 mm is covered with about 30 ml of 0.2 percent GELRITE™ (solidifying agent) solidified medium. A sequence of regeneration media are used for whole plant formation from the embryoids.

During the regeneration process, individual embryoids are induced to form plantlets. The number of different media in the sequence can vary depending on the specific protocol used. Finally, a rooting medium is used as a prelude to transplanting to soil. When plantlets reach a height of about 5 cm, they are then transferred to pots for further growth into flowering plants in a greenhouse by methods well known to those skilled in the art.

Plants have been produced from isolated microspore cultures by methods disclosed herein, including self-pollinated plants. The rate of embryoid induction was much higher with the synergistic preculture treatment consisting of a combination of stress factors, including a carbon source which can be capable of inducing starvation, a cold temperature and colchicine, then has previously been reported. An illustrative embodiment of the synergistic combination of treatments leading to the dramatically improved response rate compared to prior methods, is a temperature of about 10° C., mannitol as a carbon source, and 0.05 percent colchicine.

The inclusion of ascorbic acid, an anti-oxidant, in the isolation medium is preferred for maintaining good microspore viability. However, there seems to be no advantage to including mineral salts in the isolation medium. The osmotic potential of the isolation medium was maintained optimally with about 6 percent sucrose, although a range of 2 percent to 12 percent is within the scope of this invention.

In an embodiment of the embryoid/callus organizing media, mineral salts concentration in IMC Culture Media "D" is (1/8×), the concentration which is used also in anther culture medium. The 6N1 salts major components have been modified to remove ammonium nitrogen. Osmotic potential in the culture medium is maintained with about 12 percent sucrose and about 400 mg/l proline. Silver nitrate (0.5 mg/l) was included in the medium to modify ethylene activity. The preculture media is further characterized by having a pH of about 5.7 to 6.0. Silver nitrate and vitamins do not appear to be crucial to this medium but do improve the efficiency of the response.

Whole anther cultures can also be used in the production of monocotyledonous plants from a plant culture system. There are some basic similarities of anther culture methods and microspore culture methods with regard to the media used. A difference from isolated microspore cultures is that undisrupted anthers are cultured, so that a support, e.g., a nylon mesh support, is not needed. The first step in developing the anther cultures is to incubate tassels at a cold temperature. A cold temperature is defined as less than about 25° C. More specifically, the incubation of the tassels is preferably performed at about 10° C. A range of 8 to 14° C. is also within the scope of the invention. The anthers are then dissected from the tassels, preferably after surface serialization using forceps, and placed on solidified medium. An example of such a medium is designated by the inventors as 6N1-TGR-P4.

The anthers are then treated with environmental conditions that are combinations of stresses that are capable of diverting microspores from gametogenesis to embryogenesis. It is believed that the stress effect of sugar alcohols in the preculture medium, for example, mannitol, is produced by inducing starvation at the predefined temperature. In one embodiment, the incubation pretreatment is for about 14 days at 10° C. It was found that treating the anthers in addition with a carbon structure, an illustrative embodiment being a sugar alcohol, preferably, mannitol, produces dramatically higher anther culture response rates as measured by the number of eventually regenerated plants, than by treatment with either cold treatment or mannitol alone. These results are particularly surprising in light of teachings that cold is better than mannitol for these purposes, and that warmer temperatures interact with mannitol better.

To incubate the anthers, they are floated on a preculture medium which diverts the microspores from gametogenesis, preferably on a mannitol carbon structure, more specifically, 0.3 M of mannitol plus 50 mg/l of ascorbic acid. 3 ml is about the total amount in a dish, for example, a tissue culture dish, more specifically, a 60 mm petri dish. Anthers are isolated from about 120 spikelets for one dish yields about 360 anthers.

Chromosome doubling agents can be used in the preculture media for anther cultures. Several techniques for doubling chromosome number (Jensen, 1974; Wan et al., 1989) have been described. Colchicine is one of the doubling agents. However, developmental abnormalities arising from in vitro cloning are further enhanced by colchicine treatments, and previous reports indicated that colchicine is toxic to microspores. The addition of colchicine in increasing concentrations during mannitol pretreatment prior to anther culture and microspore culture has achieved improved percentages.

An illustrative embodiment of the combination of a chromosome doubling agent and preculture medium is one which contains colchicine. In a specific embodiment, the colchicine level is preferably about 0.05 percent. The anthers remain in the mannitol preculture medium with the additives for about 10 days at 10° C. Anthers are then placed on maturation media, for example, that designated 6N1-TGR-P4, for 3 to 6 weeks to induce embryoids. If the plants are to be regenerated from the embryoids, shoot regeneration medium is employed, as in the isolated microspore procedure described in the previous sections. Other regeneration media can be used sequentially to complete regeneration of whole plants.

The anthers are then exposed to embryoid/callus promoting medium, for example, that designated 6N1-TGR-P4 to obtain callus or embryoids. The embryoids are recognized by identification visually of embryonic-like structures. At this stage, the embryoids are transferred serially to a series of regeneration media. In an illustrative embodiment, the shoot initiation medium comprises BAP (6-benzyl-amino-purine) and NAA (naphthalene acetic acid). Regeneration protocols for isolated microspore cultures and anther cultures are similar.

B. Other Cultures and Regeneration

The present invention contemplates a corn plant regenerated from a tissue culture of an inbred (e.g., 85CS01, RQAA8, FBPN, or 3AZA1) or hybrid plant (1103157, 2002116, 2002576, or 2026021) of the present invention. As is well known in the art, tissue culture of corn can be used for the in vitro regeneration of a corn plant. By way of example, a process of tissue culturing and regeneration of corn is described in European Patent Application, publication 160,390, the disclosure of which is incorporated by reference. Corn tissue culture procedures are also described in Green & Rhodes (1982) and Duncan et al., (1985). The study by Duncan indicates that 97 percent of cultures plants produced calli capable of regenerating plants. Subsequent studies have shown that both inbreds and hybrids produced 91 percent regenerable calli that produced plants.

Other studies indicate that non-traditional tissues are capable of producing somatic embryogenesis and plant regeneration. See, e.g., Songstad et al. (1988); Conger et al. (1987); and Rao et al., (1986), the disclosures of which are incorporated herein by reference.

Briefly, by way of example, to regenerate a plant of this invention, cells are selected following growth in culture. Where employed, cultured cells are preferably grown either on solid supports or in the form of liquid suspensions as set forth above. In either instance, nutrients are provided to the cells in the form of media, and environmental conditions are controlled. There are many types of tissue culture media comprising amino acids, salts, sugars, hormones and vitamins. Most of the media employed to regenerate inbred and hybrid plants have some similar components, the media differ in the composition and proportions of their ingredients depending on the particular application envisioned. For example, various cell types usually grow in more than one type of media, but exhibit different growth rates and different morphologies, depending on the growth media. In some media, cells survive but do not divide. Various types of media suitable for culture of plant cells have been previously described and discussed above.

An exemplary embodiment for culturing recipient corn cells in suspension cultures includes using embryogenic cells in Type II (Armstrong & Green, 1985; Gordon-Kamm et al., 1990) callus, selecting for small (10 to 30μ) isodiametric, cytoplasmically dense cells, growing the cells in suspension cultures with hormone containing media, subculturing into a progression of media to facilitate development of shoots and roots, and finally, hardening the plant and readying it metabolically for growth in soil.

Meristematic cells (i.e., plant cells capable of continual cell division and characterized by an undifferentiated cytological appearance, normally found at growing points or tissues in plants such as root tips, stem apices, lateral buds, etc.) can be cultured.

Embryogenic calli are produced (Gordon-Kamm et a., 1990). Specifically, plants from hybrids produced from crossing an inbred of the present invention with another inbred are grown to flowering in a greenhouse. Explants from at least one of the following F₁ tissues: the immature tassel tissue, intercalary meristems and leaf bases, apical meristems, and immature ears are placed in an initiation medium which contain MS salts, supplemented with thiamine, agar, and sucrose. Cultures are incubated in the dark at about 23° C. All culture manipulations and selections are performed with the aid of a dissecting microscope.

After about 5 to 7 days, cellular outgrowths are observed from the surface of the explants. After about 7 to 21 days, the outgrowths are subcultures by placing them into fresh medium of the same composition. Some of the intact immature embryo explants are placed on fresh medium. Several subcultures later (after about 2 to 3 months) enough material is present from explants for subdivision of these embryogenic calli into two or more pieces.

Callus pieces from different explants are not mixed. After further growth and subculture (about 6 months after embryogenic callus initiation), there are usually between 1 and 100 pieces derived ultimately from each selected explant. During this time of culture expansion, a characteristic embryogenic culture morphology develops as a result of careful selection at each subculture. Any organized structures resembling roots or root primordia are discarded. Material known from experience to lack the capacity for sustained growth is also discarded (translucent, watery, embryogenic structures). Structures with a firm consistency resembling at least in part the scutulum of the in vivo embryo are selected.

The callus is maintained on agar-solidified MS-type media. A preferred hormone is 2,4-D. Visual selection of embryo-like structures is done to obtain subcultures. Transfer of material other than that displaying embryogenic morphology results in loss of the ability to recover whole plants from the callus.

Cell suspensions are prepared from the calli by selecting cell populations that appear homogeneous macroscopically. A portion of the friable, rapidly growing embryogenic calli is inoculated into MS Medium. The calli in medium are incubated at about 27° C. on a gyrotary shaker in the dark or in the presence of low light. The resultant suspension culture is transferred about once every seven days by taking about 5 to 10 ml of the culture and introducing this inoculum into fresh medium of the composition listed above.

For regeneration, embryos which appear on the callus surface are selected and regenerated into whole plants by transferring the embryogenic structures into a sequence of solidified media which include decreasing concentrations of 2,4-D or other auxins. Other hormones which can be used in the media include dicamba, NAA, ABA, BAP, and 2-NCA. The reduction is relative to the concentration used in culture maintenance media. Plantlets are regenerated from these embryos by transfer to a hormone-free medium, subsequently transferred to soil, and grown to maturity.

Progeny are produced by taking pollen and selfing, backcrossing or sibling regenerated plants by methods well known to those skilled in the arts. Seeds are collected from the regenerated plants.

XI. Processes of Preparing Corn Plants and the Corn Plants Produced by Such Processes

The present invention also provides a process of preparing a novel corn plant and a corn plant produced by such a process. In accordance with such a process, a first parent corn plant is crossed with a second parent corn plant wherein at least one of the first and second corn plants is the inbred corn plant 85CS01, RQAA8, FBPN, or 3AZA1. In one embodiment, a corn plant prepared by such a process is a first generation F₁ hybrid corn plant prepared by a process wherein both the first and second parent corn plants are inbred corn plants.

Corn plants (Zea mays L.) can be crossed by either natural or mechanical techniques. Natural pollination occurs in corn when wind blows pollen from the tassels to the silks that protrude from the tops of the incipient ears. Mechanical pollination can be effected either by controlling the types of pollen that can blow onto the silks or by pollinating by hand.

In a preferred embodiment, crossing comprises the steps of:

(a) planting in pollinating proximity seeds of a first and a second parent corn plant, and preferably, seeds of a first inbred corn plant and a second, distinct inbred corn plant;

(b) cultivating or growing the seeds of the first and second parent corn plants into plants that bear flowers;

(c) emasculating flowers of either the fist or second parent corn plant, i.e., treating the flowers so as to prevent pollen production, in order to produce an emasculated parent corn plant;

(d) allowing natural cross-pollination to occur between the first and second parent corn plant;

(e) harvesting seeds produced on the emasculated parent corn plant; and, where desired,

(f) growing the harvested seed into a corn plant, or preferably, a hybrid corn plant.

Parental plants are planted in pollinating proximity to each other by planting the parental plants in alternating rows, in blocks or in any other convenient planting pattern. Plants of both parental parents are cultivated and allowed to grow until the time of flowering. Advantageously, during this growth stage, plants are in general treated with fertilizer and/or other agricultural chemicals as considered appropriate by the grower.

At the time of flowering, in the event that plant 85CS01, RQAA8, FBPN, or 3AZA1, is employed as the male parent, the tassels of the other parental plant are removed from all plants employed as the female parental plant. The detasseling can be achieved manually but also can be done by machine if desired.

The plants are then allowed to continue to grow and natural cross-pollination occurs as a result of the action of wind, which is normal in the pollination of grasses, including corn. As a result of the emasculation of the female parent plant, all the pollen from the male parent plant, e.g., 85CS01, RQAA8, FBPN, or 3AZA1, is available for pollination because tassels, and thereby pollen bearing flowering parts, have been previously removed from all plants of the inbred plant being used as the female in the hybridization. Of course, during this hybridization procedure, the parental varieties are grown such that they are isolated from other corn fields to prevent any accidental contamination of pollen from foreign sources. These isolation techniques are well within the skill of those skilled in this art.

Both of the parent inbred plants of corn are allowed to continue to grow until maturity, but only the ears from the female inbred parental plants are harvested to obtain seeds of a novel F₁ hybrid. The novel F₁ hybrid seed produced can then be planted in a subsequent growing season with the desirable characteristics in terms of F₁ hybrid corn plants providing improved grain yields and the other desirable characteristics disclosed herein, being achieved.

Alternatively, in another embodiment, both first and second parent corn plants can come from the same inbred corn plant, i.e., from the inbreds designated, separately, 85CS01, RQAA8, FBPN, or 3AZA1. Thus, any corn plant produced using a process of the present invention and inbred corn plant 85CS01, RQAA8, FBPN, or 3AZA1, is contemplated by this invention. As used herein, crossing can mean selfing, backcrossing, crossing to another or the same inbred, crossing to populations, and the like. All corn plants produced using the present inbred corn plants, i.e., 85CS01, RQAA8, FBPN, or 3AZA1, as a parent are within the scope of this invention.

The utility of the inbred plants 85CS01, RQAA8, FBPN, and 3AZA1, also extends to crosses with other species. Commonly, suitable species will be of the family Graminaceae, and especially of the genera Zea, Tripsacum, Coix, Schlerachne, Polytoca, Chionachne, and Trilobachne, of the tribe Maydeae. Of these, Zea and Tripsacum, are most preferred. Potentially suitable for crosses with 85CS01, RQAA8, FBPN, and 3AZA1 can be the various varieties of grain sorghum, Sorghum bicolor (L.) Moench.

A. F₁ Hybrid Corn Plant and Seed Production

Where the inbred corn plant 85CS01, RQAA8, FBPN, or 3AZA1 is crossed with another, different, corn inbred, a first generation (F₁) corn hybrid plant is produced. Both a F₁ hybrid corn plant and a seed of that F₁ hybrid corn plant are contemplated as aspects of the present invention.

Inbred 85CS01 has been used to prepare an F₁ hybrid corn plant, designated 1103157; inbred RQAA8 has been used to prepare an F₁ hybrid corn plant, designated 2002116; inbred FBPN has been used to prepare an F₁ hybrid corn plant, designated 2002576; and inbred 3AZA1 has been used to prepare an F₁ hybrid corn plant, designated 2026021.

The goal of a process of producing an F₁ hybrid is to manipulate the genetic complement of corn to generate new combinations of genes which interact to yield new or improved traits (phenotypic characteristics). A process of producing an F₁ hybrid typically begins with the production of one or more inbred plants. Those plants are produced by repeated crossing of ancestrally related corn plants to try and concentrate certain genes within the inbred plants. The production of inbreds 85CS01, RQAA8, FBPN, and 3AZA1 has been set forth hereinbefore.

Corn has a dipoloid phase which means two conditions of a gene (two alleles) occupy each locus (position on a chromosome). If the alleles are the same at a locus, there is said to be homozygosity. If they are different, there is said to be heterozygosity. In a completely inbred plant, all loci are homozygous. Because many loci when homozygous are deleterious to the plant, in particular leading to reduced vigor, less kernels, weak and/or poor growth, production of inbred plants is an unpredictable and arduous process. Under some conditions, heterozygous advantage at some loci effectively bars perpetuation of homozygosity.

Inbreeding requires coddling and sophisticated manipulation by human breeders. Even in the extremely unlikely event inbreeding rather than crossbreeding occurred in natural corn, achievement of complete inbreeding cannot be expected in nature due to well known deleterious effects of homozygosity and the large number of generations the plant would have to breed in isolation. The reason for the breeder to create inbred plants is to have a known reservoir of genes whose gametic transmission is at least somewhat predictable.

The development of inbred plants generally requires at least about 5 to 7 generations of selfing. Inbred plants are then cross-bred in an attempt to develop improved F₁ hybrids. Hybrids are then screened and evaluated in small scale field trials. Typically, about 10 to 15 phenotypical traits, selected for their potential commercial value, are measured. A selection index of the most commercially important traits is used to help evaluate hybrids. FACT, an acronym for Field Analysis Comparison Trail (strip trails), is an on-farm testing program employed by DEKALB Plant Genetics to perform the final evaluation of the commercial potential of a product.

During the next several years, a progressive elimination of hybrids occurs based on more detailed evaluation of their phenotype. Eventually, strip trials (FACT) are conducted to formally compare the experimental hybrids being developed with other hybrids, some of which were previously developed and generally are commercially successful. That is, comparisons of experimental hybrids are made to competitive hybrids to determine if there was any advantage to further commercial development of the experimental hybrids. Examples of such comparisons are presented in XVII, Section B, hereinbelow.

When the inbred parental plant, i.e., 85CS01, RQAA8, FBPN, or 3AZA1, is crossed with another inbred plant to yield a hybrid (such as the hybrids 1103157, 2002116, 2002576, and 2026021), the original inbred can serve as either the maternal or paternal plant. For many crosses, the outcome is the same regardless of the assigned sex of the parental plants.

However, there is often one of the parental plants that is preferred as the maternal plant because of increased seed yield and production characteristics. Some plants produce tighter ear husks leading to more loss, for example due to root. There can be delays in silk formation which deleteriously affect timing of the reproductive cycle for a pair of parental inbreds. Seed coat characteristics can be preferable in one plant. Pollen can be shed better by one plant. Other variables can also affect preferred sexual assignment of a particular cross.

Table 23 shows the male and female parentage of the exemplary hybrids 1103157, 2002116, 2002576, and 2026021.

                  TABLE 23                                                         ______________________________________                                         HYBRID PARENTAGE                                                                 HYBRID            FEMALE   MALE                                              ______________________________________                                         1103157         85DGD1   85CS01                                                  2002116 RQAA8 MBZA                                                             2002576 FBPN MBWZ                                                              2026021 3AZA1 3IJI1                                                          ______________________________________                                    

B. F₁ Hybrid Comparisons

As mentioned in Section A, hybrids are progressively eliminated following detailed evaluations of their phenotype, including formal comparisons with other commercially successful hybrids. Strip trials are used to compare the phenotypes of hybrids grown in as many environments as possible. They are performed in many environments to assess overall performance of the new hybrids and to select optimum growing conditions. Because the corn is grown in close proximity, environmental factors that affect gene expression, such as moisture, temperature, sunlight and pests, are minimized. For a decision to be made that a hybrid is worth making commercially available, it is not necessary that the hybrid be better than all other hybrids. Rather, significant improvements must be shown in at least some traits that would create improvements in some niches.

Examples of such comparative data are set forth hereinbelow in Tables 24 through 27, which present a comparison of performance data for the hybrids 1103157, 2002116, 2002576, and 2026021, versus several other selected hybrids of commercial value.

Specifically, Table 24 presents a comparison of performance data for 1103157 versus three selected hybrids of commercial value (DK560, DK623 and DK636). 1103157 has 85CS01, an inbred of the invention, as one inbred parent.

Table 25 presents a comparison of performance data for 2002116 versus two selected hybrids of commercial value (DK560 and DK580). 2002116 has RQAA8, an inbred of the invention, as one inbred parent.

Table 26 presents a comparison of performance data for 2002576 versus two selected hybrids of commercial value (DK569 and DK591). 2002576 has FBPN, an inbred of the invention, as one inbred parent.

Table 27 presents a comparison of performance data for 2026021 versus two selected hybrids of commercial value (DK363 and DK381). 2026021 has 3AZA1, an inbred of the invention, as one inbred parent.

All the data in Tables 24 through 27 represent results across years and locations for strip trials. In all cases, the "NTEST" represents the number of paired observations in designated tests at locations around the United States.

                                      TABLE 24                                     __________________________________________________________________________     COMPARATIVE DATA FOR 1103157                                                            SI YLD                                                                               MST                                                                               STL                                                                               RTL                                                                               DRP                                                                               FLSTD                                                                              SV ELSTD                                                                              PHT EHT BAR                                                                               SG TST    ESTR                  HYBRID NTEST % C BU PTS % % % % M RAT % M INCH INCH % RAT LBS FGDU           __________________________________________________________________________                                                                DAYS                                                                            1103157 R 121                                                                  99.4 166.3                                                                    20.5 2.0 1.8                                                                   0.0  99.8 5.9                                                                  102.3 90.4                                                                     39.5 0.9 3.8                                                                   55.9 1376                                                                      109.6                 DK560  101.7 166.7 18.6 2.9 2.6 0.2 100.5 5.4 101.2 88.3 42.8 0.7 3.4                                                                   55.7 1389                                                                      107.7                     ** ** * * * **  ** **    * **                                               F 86  98.8 173.4 20.8 2.0 0.4 0.3 102.0       57.3  110.1                       101.8 171.9 18.4 2.3 0.7 0.2 101.7       57.1  106.6                           +  **             **                                                         1103157 R 424 102.5 154.3 20.3 2.1 1.7 0.1 100.0 5.9 100.3 91.3 40.1                                                                    1.4 3.5 55.8                                                                   1347 109.8                                                                      DK623   92.0                                                                  145.5 21.1 3.1                                                                 0.8 0.2 100.1                                                                  5.6  99.8 89.8                                                                 39.2 1.6 3.8                                                                   54.3 1349                                                                      110.5                   ** ** ** ** ** **  **  ** **  ** **  **                                       F 140  99.9 161.0 20.1 2.0 0.5 0.4 100.6       57.2  110.6                      101.4 163.3 20.5 2.4 0.2 0.3 101.3       56.0  110.8                            + **  +         **  +                                                       1103157 R 6 104.5 191.3 18.3 0.2 0.0 0.0 100.7 6.5 108.1 93.0 42.0  3.5                                                                 57.4  111.4                                                                     DK636   89.6                                                                  181.2 21.5 0.6                                                                 0.0 0.0  97.2                                                                  5.5  96.5 89.0                                                                 40.0  4.0 55.6                                                                  116.3                                                                            + + *                                                                             *                                                                          F 31 103.2                                                                   138.5 18.9 2.8                                                                 0.6 0.4  99.7                                                                       57.1                                                                      110.1                    96.1 135.8 21.0 3.1 0.7 0.4 101.0       56.7  113.0                           **  **             **                                                      __________________________________________________________________________     Legend Abbreviations       Significance levels are indicated as:               SI % C =                                                                              Selection Index (Percent of Check)                                                                 += 10 percent                                         YLD BU = Yield (Bushels/Acre) *=  5 percent                                    MST PTS = Moisture **=  1 percent                                              STL % = Stalk Lodging (Percent)                                                RTL % = Root Lodging (Percent)                                                 DRP % = Dropped Ears (Percent)                                                 FLSTD % M = Final Stand (Percent of Test Mean)                                 SV RAT = Seedling Vigor Rating                                                 ELSTD % M = Early Stand (Percent of Test Mean)                                 PHT INCH= Plant Height (Inches)                                                EHT INCH = Ear Height (Inches)                                                 BAR % = Barren Plants (Percent)                                                SG RAT = Staygreen Rating                                                      TST LBS = Test Weight (Pounds)                                                 FGDU = GDUs to Shed                                                            ESTR DAYS = Estimated Relative Maturity (Days)                          

                                      TABLE 25                                     __________________________________________________________________________     COMPARATIVE DATA FOR 2002116                                                            SI YLD                                                                               MST                                                                               STL                                                                               RTL                                                                               DRP                                                                               FLSTD                                                                              SV ELSTD                                                                              PHT EHT BAR                                                                               SG TST    ESTR                  HYBRID NTEST % C BU PTS % % % % M RAT % M INCH INCH % RAT LBS FGDU           __________________________________________________________________________                                                                DAYS                                                                            2002116 R 631                                                                  98.9 176.7                                                                    19.5 1.9 3.4                                                                   0.1 100.2 5.7                                                                  9.5 88.6 42.4                                                                  0.6 5.3 55.2                                                                   1414 105.8                                                                      DK560  102.3                                                                  181.3 20.2 2.1                                                                 3.0 0.1 100.4                                                                  5.2 102.0 91.6                                                                 45.0 0.4 4.5                                                                   55.4 1407                                                                      106.7                   ** ** ** +    ** ** ** **  **  ** **                                          F 207  97.2 169.6 17.9 1.9 0.8 0.2  98.8       57.1  105.3                      100.4 174.0 18.6 1.9 0.6 0.1 101.0       57.4  106.5                           ** ** **    **       **  **                                                  2002116 R 628  99.3 178.2 19.5 1.8 3.4 0.1 100.2 5.7  99.6 88.7 42.5                                                                    0.6 5.4 55.2                                                                   1414 105.8                                                                      DK580  103.6                                                                  183.4 20.6 2.3                                                                 1.3 0.1 100.0                                                                  5.0 100.3 89.3                                                                 44.4 0.5 5.1                                                                   54.5 1403                                                                      107.2                   ** ** ** ** **   **  * **  ** ** ** **                                        F 223  97.1 170.6 17.7 2.0 0.8 0.1  98.5       57.2  105.4                      107.0 181.8 18.6 2.0 0.2 0.1 101.9       56.4  106.8                           ** ** **  **  **       **  **                                              __________________________________________________________________________     Legend Abbreviations       Significance levels are indicated as:               SI % C =                                                                              Selection Index (Percent of Check)                                                                 += 10 percent                                         YLD BU = Yield (Bushels/Acre) *=  5 percent                                    MST PTS = Moisture **=  1 percent                                              STL % = Stalk Lodging (Percent)                                                RTL % = Root Lodging (Percent)                                                 DRP % = Dropped Ears (Percent)                                                 FLSTD % M = Final Stand (Percent of Test Mean)                                 SV RAT = Seedling Vigor Rating                                                 ELSTD % M = Early Stand (Percent of Test Mean)                                 PHT INCH= Plant Height (Inches)                                                EHT INCH = Ear Height (Inches)                                                 BAR % = Barren Plants (Percent)                                                SG RAT = Staygreen Rating                                                      TST LBS = Test Weight (Pounds)                                                 FGDU = GDUs to Shed                                                            ESTR DAYS = Estimated Relative Maturity (Days)                          

                                      TABLE 26                                     __________________________________________________________________________     COMPARATIVE DATA FOR 2002576                                                            SI YLD                                                                               MST                                                                               STL                                                                               RTL                                                                               DRP                                                                               FLSTD                                                                              SV ELSTD                                                                              PHT EHT BAR                                                                               SG TST    ESTR                  HYBRID NTEST % C BU PTS % % % % M RAT % M INCH INCH % RAT LBS FGDU           __________________________________________________________________________                                                                DAYS                                                                            2002576 R 14                                                                  102.5 199.7                                                                    23.5 0.8 0.9                                                                   0.0 103.2                                                                      109.6 100.1                                                                    48.1  5.0 52.6                                                                  108.9                                                                          DK569   95.1                                                                  179.8 19.5 1.5                                                                 5.5 0.0 102.9                                                                  107.1 92.2                                                                     42.3  3.5 53.7                                                                  104.7                                                                             ** ** *                                                                      ** **     **         F 163 103.3 182.8 19.8 1.8 0.3 0.2 101.9       55.4  110.1                      102.8 177.7 17.4 1.9 0.7 0.1 100.2       56.0  106.2                            ** **  *  *       **  **                                                    2002576 R 243 105.2 181.4 20.0 2.0 2.1 0.1 100.8 6.4 102.2 94.5 45.8                                                                    0.4 5.4 54.7                                                                   1345 110.1                                                                      DK591  101.9                                                                  177.3 19.5 2.3                                                                 2.2 0.1 100.5                                                                  5.3  98.3 93.9                                                                 45.9 0.8 5.0                                                                   54.7 1357                                                                      109.6                   ** ** **     ** **    **  ** **                                               F 224 104.6 179.9 19.3 1.6 0.3 0.2 101.5       55.5  110.1                      100.5 175.3 18.9 2.0 0.4 0.2 101.1       55.7  109.4                           ** ** ** *          **  **                                                 __________________________________________________________________________     Legend Abbreviations       Significance levels are indicated as:               SI % C =                                                                              Selection Index (Percent of Check)                                                                 += 10 percent                                         YLD BU = Yield (Bushels/Acre) *=  5 percent                                    MST PTS = Moisture **=  1 percent                                              STL % = Stalk Lodging (Percent)                                                RTL % = Root Lodging (Percent)                                                 DRP % = Dropped Ears (Percent)                                                 FLSTD % M = Final Stand (Percent of Test Mean)                                 SV RAT = Seedling Vigor Rating                                                 ELSTD % M = Early Stand (Percent of Test Mean)                                 PHT INCH= Plant Height (Inches)                                                EHT INCH = Ear Height (Inches)                                                 BAR % = Barren Plants (Percent)                                                SG RAT = Staygreen Rating                                                      TST LBS = Test Weight (Pounds)                                                 FGDU = GDUs to Shed                                                            ESTR DAYS = Estimated Relative Maturity (Days)                          

                                      TABLE 27                                     __________________________________________________________________________     COMPARATIVE DATA FOR 2026021                                                            SI YLD                                                                               MST                                                                               STL                                                                               RT L                                                                              DRP                                                                               FLSTD                                                                              SV ELSTD                                                                              PHT EHT BAR                                                                               SG TST    ESTR                  HYBRID NTEST % C BU PTS % % % % M RAT % M INC H INC H % RAT LBS FGDU                                                                    DAYS                __________________________________________________________________________       2026021 R 87 112.7 139.0 21.9 5.3 0.5 0.0 100.2 6.0 102.7 85.2 42.0                                                                     5.9 54.3 1320                                                                  87.3                  DK363   89.7 114.0 20.6 8.8 0.8 0.1 100.3 6.0 100.3 82.3 38.9  4.1 53.1                                                                 1319 86.1                                                                         ** ** ** **                                                                     ** ** **                                                                   ** **  **                                                                        F 28 112.1                                                                   162.8 20.5 4.1                                                                 0.2 0.3 101.4                                                                       55.4                                                                      88.1                     87.6 137.1 19.1 6.8 0.3 0.2  99.3       54.5  85.2                            ** ** ** +          **  **                                                   2026021 R 260 110.3 152.6 21.4 4.9 0.8 0.0 100.5 5.9 102.9 88.3 44.2                                                                    5.2 54.6 1295                                                                  89.1                  DK381  101.9 143.8 21.4 3.5 1.6 0.0 100.2 5.5 100.0 90.8 45.4  4.9 53.2                                                                 1352 89.0                                                                         ** **  ** *                                                                   ** ** ** **                                                                   ** **                                                                           F 71 108.7                                                                   158.0 20.1 5.2                                                                 0.8 0.2 102.4                                                                       55.7                                                                      88.8                     96.9 144.8 20.0 3.4 0.6 0.2  98.3       54.8  88.5                            ** **  **   **       **                                                    __________________________________________________________________________     Legend Abbreviations       Significance levels are indicated as:               SI % C =                                                                              Selection Index (Percent of Check)                                                                 += 10 percent                                         YLD BU = Yield (Bushels/Acre) *=  5 percent                                    MST PTS = Moisture **=  1 percent                                              STL % = Stalk Lodging (Percent)                                                RTL % = Root Lodging (Percent)                                                 DRP % = Dropped Ears (Percent)                                                 FLSTD % M = Final Stand (Percent of Test Mean)                                 SV RAT = Seedling Vigor Rating                                                 ELSTD % M = Early Stand (Percent of Test Mean)                                 PHT INCH= Plant Height (Inches)                                                EHT INCH = Ear Height (Inches)                                                 BAR % = Barren Plants (Percent)                                                SG RAT = Staygreen Rating                                                      TST LBS = Test Weight (Pounds)                                                 FGDU = GDUs to Shed                                                            ESTR DAYS = Estimated Relative Maturity (Days)                          

As can be seen in Table 24 through Table 27, each of the hybrids 1103157, 2002116, 2002576, and 2026021 have a significant improvement in plant health as exemplified by differences in stay green rating, seedling vigor rating, and percent of stalk lodging when compared to several successful commercial hybrids. These hybrids were developed for improved adaptation to the Eastern Corn Belt. Significant differences are also shown in Tables 24 through 27 for many other traits.

C. Physical Description of F₁ Hybrids

The present invention also provides F₁ hybrid corn plants derived from the corn plants 85CS01, RQAA8, FBPN, and 3AZA1. Physical characteristics of exemplary hybrids are set forth in Tables 28 through 31. An explanation of terms used in Tables 28 through 31 can be found in the Definitions, set forth hereinabove.

Table 28 concerns 1103157, which has 85CS01 as one inbred parent. Table 29 concerns 2002116, which has RQAA8 as one inbred parent. Table 30 concerns 2002576, which has FBPN as one inbred parent. Table 31 concerns 2026021, which has 3AZA1 as one inbred parent.

                  TABLE 28                                                         ______________________________________                                         MORPHOLOGICAL TRAITS FOR                                                         THE 1103157 PHENOTYPE                                                          YEAR OF DATA: 1993, 1994                                                           CHARACTERISTIC    VALUE                                                  ______________________________________                                         1. Stalk                                                                         Diameter (Width) cm.  2.6                                                      Nodes With Brace Roots  1.9                                                    Internode Length cm. 19.1                                                      2. Leaf                                                                        Number 19.0                                                                    Color DARK GREEN                                                               Length cm. 99.7                                                                Width cm. 10.2                                                                 Sheath Pubescence LIGHT                                                        Marginal Waves MEDIUM                                                          Longitudinal Creases FEW                                                       3. Tassel                                                                      Branch Angle INTERMEDIATE                                                      Length cm. 59.2                                                                Spike Length cm. 34.2                                                          Peduncle Length cm. 14.2                                                       Branch Number  8.5                                                             Anther Color GREEN-YELLOW                                                      Glume Color GREEN                                                              Glume Band ABSENT                                                              4. Ear                                                                         Silk Color GREEN-YELLOW                                                        Number Per Stalk  1.0                                                          Length cm. 20.4                                                                Shape SEMI-CONICAL                                                             Diameter cm. 44.3                                                              Weight gm. 241.3                                                               Shank Length cm. 16.7                                                          Shank Internode  8.8                                                           Husk Bract SHORT                                                               Husk Cover cm.  2.5                                                            Husk Color Fresh GREEN                                                         Husk Color Dry BUFF                                                            Cob Diameter cm. 25.5                                                          Cob Color RED                                                                  Shelling Percent 88.5                                                          5. Kernel                                                                      Row Number 16.1                                                                Number Per Row 41.7                                                            Row Direction CURVED                                                           Type DENT                                                                      Cap Color YELLOW                                                               Side Color ORANGE                                                              Length (Depth) mm. 13.0                                                        Width mm.  8.2                                                                 Thickness  4.6                                                                 Weight of 1000K gm. 358.8                                                      Endosperm Type NORMAL                                                          Endosperm Color YELLOW                                                       ______________________________________                                          *These are typical values. Values may vary due to environment. Other           values that are substantially equivalent are also within the scope of the      invention. Substantially equivalent refers to quantitative traits that         when compared do not show statistical differences of their means.        

                  TABLE 29                                                         ______________________________________                                         MORPHOLOGICAL TRAITS FOR                                                         THE 2002116 PHENOTYPE                                                          YEAR OF DATA: 1993, 1994                                                           CHARACTERISTIC    VALUE                                                  ______________________________________                                         1. Stalk                                                                         Diameter (Width) cm.  2.3                                                      Anthocyanin ABSENT                                                             Nodes With Brace Roots  1.6                                                    Brace Root Color GREEN                                                         Internode Direction STRAIGHT                                                   Internode Length cm. 17.9                                                      2. Leaf                                                                        Angle UPRIGHT                                                                  Number 20.3                                                                    Color DARK GREEN                                                               Length cm. 98.7                                                                Width cm. 10.5                                                                 Marginal Waves FEW                                                             Longitudinal Creases FEW                                                       3. Tassel                                                                      Length cm. 40.0                                                                Spike Length cm. 29.7                                                          Peduncle Length cm.  8.8                                                       Attitude COMPACT                                                               Branch Angle INTERMEDIATE                                                      Branch Number  6.9                                                             Glume Color GREEN                                                              Glume Band ABSENT                                                              4. Ear                                                                         Silk Color GREEN-YELLOW                                                        Number Per Stalk  1.2                                                          Position (Attitude) UPRIGHT                                                    Length cm. 20.0                                                                Shape SEMI-CONICAL                                                             Diameter cm. 47.0                                                              Weight gm. 233.0                                                               Shank Length cm. 13.1                                                          Shank Internode  6.7                                                           Husk Bract SHORT                                                               Husk Cover cm.  2.9                                                            Husk Color Fresh GREEN                                                         Husk Color Dry BUFF                                                            Cob Diameter cm. 22.7                                                          Cob Color                                                                      Shelling Percent 88.2                                                          5. Kernel                                                                      Row Number 16.7                                                                Number Per Row 43.8                                                            Row Direction CURVED                                                           Type DENT                                                                      Cap Color YELLOW                                                               Length (Depth) mm. 12.5                                                        Width mm.  7.7                                                                 Thickness  3.9                                                                 Weight of 1000K gm. 301.0                                                      Endosperm Type NORMAL                                                          Endosperm Color YELLOW                                                       ______________________________________                                          *These are typical values. Values may vary due to environment. Other           values that are substantially equivalent are also within the scope of the      invention. Substantially equivalent refers to quantitative traits that         when compared do not show statistical differences of their means.        

                  TABLE 30                                                         ______________________________________                                         MORPHOLOGICAL TRAITS FOR                                                         THE 2002576 PHENOTYPE                                                          YEAR OF DATA: 1993, 1994                                                           CHARACTERISTIC    VALUE                                                  ______________________________________                                         1. Stalk                                                                         Diameter (Width) cm.  2.5                                                      Anthocyanin ABSENT                                                             Nodes With Brace Roots  1.7                                                    Brace Root Color GREEN                                                         Internode Direction STRAIGHT                                                   Internode Length cm. 18.2                                                      2. Leaf                                                                        Number 19.9                                                                    Color DARK GREEN                                                               Length cm. 95.4                                                                Width cm.  9.5                                                                 Sheath Pubescence LIGHT                                                        Longitudinal Creases FEW                                                       3. Tassel                                                                      Length cm. 45.2                                                                Spike Length cm. 27.0                                                          Peduncle Length cm. 13.4                                                       Branch Number  7.6                                                             Anther Color PINK                                                              Glume Color GREEN                                                              Glume Band ABSENT                                                              4. Ear                                                                         Silk Color GREEN-YELLOW                                                        Number Per Stalk  1.0                                                          Position (Attitude) UPRIGHT                                                    Length cm. 18.7                                                                Shape SEMI-CONICAL                                                             Diameter cm. 46.2                                                              Weight gm. 229.2                                                               Shank Length cm. 12.2                                                          Shank Internode  8.1                                                           Husk Bract SHORT                                                               Husk Cover cm.  3.3                                                            Husk Color Fresh GREEN                                                         Husk Color Dry BUFF                                                            Cob Diameter cm. 24.5                                                          Cob Color RED                                                                  Shelling Percent 88.1                                                          5. Kernel                                                                      Row Number 16.8                                                                Number Per Row 39.7                                                            Row Direction CURVED                                                           Type DENT                                                                      Cap Color YELLOW                                                               Side Color DEEP YELLOW                                                         Length (Depth) mm. 12.9                                                        Width mm.  7.8                                                                 Thickness  3.9                                                                 Weight of 1000K gm. 310.5                                                      Endosperm Type NORMAL                                                          Endosperm Color YELLOW                                                       ______________________________________                                          *These are typical values. Values may vary due to environment. Other           values that are substantially equivalent are also within the scope of the      invention. Substantially equivalent refers to quantitative traits that         when compared do not show statistical differences of their means.        

                  TABLE 31                                                         ______________________________________                                         MORPHOLOGICAL TRAITS FOR                                                         THE 2026021 PHENOTYPE                                                          YEAR OF DATA: 1993, 1994                                                           CHARACTERISTIC    VALUE                                                  ______________________________________                                         1. Stalk                                                                         Diameter (Width) cm.  2.2                                                      Nodes With Brace Roots  1.4                                                    Internode Length cm. 17.0                                                      Internode Direction STRAIGHT                                                   2. Leaf                                                                        Number 19.3                                                                    Color DARK GREEN                                                               Length cm. 83.6                                                                Width cm.  8.9                                                                 Sheath Pubescence LIGHT                                                        Marginal Waves FEW                                                             Longitudinal Creases FEW                                                       3. Tassel                                                                      Branch Angle INTERMEDIATE                                                      Length cm. 38.1                                                                Spike Length cm. 28.2                                                          Peduncle Length cm.  7.6                                                       Branch Number  6.3                                                             Anther Color TAN                                                               Glume Color GREEN                                                              Glume Band ABSENT                                                              4. Ear                                                                         Number Per Stalk  1.1                                                          Length cm. 18.6                                                                Shape SEMI-CONICAL                                                             Diameter cm. 42.3                                                              Weight gm. 181.8                                                               Shank Length cm. 17.0                                                          Shank Internode  6.3                                                           Husk Bract MEDIUM                                                              Husk Cover cm.  3.8                                                            Husk Color Fresh GREEN                                                         Husk Color Dry BUFF                                                            Cob Diameter cm. 21.7                                                          Cob Color RED                                                                  Shelling Percent 88.3                                                          5. Kernel                                                                      Row Number 14.6                                                                Number Per Row 39.6                                                            Row Direction CURVED                                                           Type DENT                                                                      Cap Color YELLOW                                                               Side Color ORANGE                                                              Length (Depth) mm. 11.5                                                        Width mm.  8.2                                                                 Thickness  4.1                                                                 Weight of 1000K gm. 333.8                                                      Endosperm Type NORMAL                                                          Endosperm Color YELLOW                                                       ______________________________________                                          *These are typical values. Values may vary due to environment. Other           values that are substantially equivalent are also within the scope of the      invention. Substantially equivalent refers to quantitative traits that         when compared do not show statistical differences of their means.        

XII. Genetic Complements

In another aspect, the present invention provides a genetic complement of a plant of this invention. In one embodiment, therefore, the present invention contemplates an inbred genetic complement of the inbred corn plants designated, separately, 85CS01, RQAA8, FBPN, and 3AZA1. In another embodiment, the present invention contemplates a hybrid genetic complement formed by the combination of a haploid genetic complement from 85CS01, RQAA8, FBPN, or 3AZA1 and another haploid genetic complement. Means for determining a genetic complement are well-known in the art.

As used herein, the phrase "genetic complement" means an aggregate of nucleotide sequences, the expression of which sequences defines the phenotype of a corn plant or a cell or tissue of that plant. By way of example, a corn plant is genotyped to determine the array of the inherited markers it possesses. Markers are alleles at a single locus. They are preferably inherited in codominant fashion so that the presence of both alleles at a diploid locus is readily detectable, and they are free of environmental variation, i.e., their heritability is 1. This genotyping is preferably performed on at least one generation of the descendant plant for which the numerical value of the quantitative trait or traits of interest are also determined. They array of single locus genotypes is expressed as a profile of marker alleles, two at each locus. The marker allelic composition of each locus can be either homozygous or heterozygous. Homozygosity is a condition where both alleles at a locus are characterized by the same nucleotide sequence. Heterozygosity refers to different conditions of the gene at a locus. Markers that are used for purposes of this invention include restriction fragment length polymorphisms (RFLPs) and isozymes.

A plant genetic complement can be defined by a genetic marker profiles that can be considered "fingerprints" of a genetic complement. For purposes of this invention, markers are preferably distributed evenly throughout the genome to increase the likelihood they will be near a quantitative trait loci (QTL) of interest (e.g., in tomatoes, Nienhuis et al., 1987). These profiles are partial projections of a sample of genes. One of the uses of markers in general is to exclude, or alternatively include, potential parents as contributing to offspring.

Phenotypical traits characteristic of the expression of a genetic complement of this invention are distinguishable by electrophoretic separation of DNA sequences cleaved by various restriction endonucleases. Those traits (genetic markers) are termed RFLP (restriction fragment length polymorphisms).

Restriction fragment length polymorphisms (RFLPs) are genetic differences detectable by DNA fragment lengths, typically revealed by agarose gel electrophoresis, after restriction endonuclease digestion of DNA. There are large numbers of restriction endonucleases available, characterized by their nucleotide cleavage sites and their source, e.g., Eco RI. Variations in RFLPs result from nucleotide base pair differences which alter the cleavage sites of the restriction endonucleases, yielding different sized fragments.

Means for performing RFLP analyses are well known in the art. Restriction fragment length polymorphism analyses reported herein were conducted by Linkage Genetics. This service is available to the public on a contractual basis. Probes were prepared to the fragment sequences, these probes being complementary to the sequences thereby being capable of hybridizing to them under appropriate conditions well known to those skilled in the art. These probes were labelled with radioactive isotopes or fluorescent dyes for ease of detection. After the fragments were separated by size, they were identified by the probes. Hybridization with a unique cloned sequence permits the identification of a specific chromosomal region (locus). Because all alleles at a locus are detectable, RFLPs are codominant alleles, thereby satisfying a criteria for a genetic marker. They differ from some other types of markers, e.g, from isozymes, in that they reflect the primary DNA sequence, they are not products of transcription or translation. Furthermore, different RFLP genetic marker profiles result from different arrays of restriction endonucleases.

The RFLP genetic marker profile of each of the parental inbreds and exemplary resultant hybrids were determined. Because an inbred is essentially homozygous at all relevant loci, an inbred should, in almost all cases, have only one allele at each locus. In contrast, a diploid genetic marker profile of a hybrid should be the sum of those parents, e.g., if one inbred parent had the allele A at a particular locus, and the other inbred parent had B, the hybrid is AB by inference.

RFLP genetic marker profiles of 85CS01, RQAA8, FBPN, and 3AZA1, are is presented in Tables 32 through 35.

                  TABLE 32                                                         ______________________________________                                         RFLP PROFILE OF 85CS01                                                           Probe/Enzyme                                                                   Combination 85CS01 LAC29 LH212 LH51 MM501D                                   ______________________________________                                         M0306H    C       A        A     C     F                                         M0445E D B D D A                                                               M0B304E --  -- -- -- B                                                         M1120S F -- B C B                                                              M1234H D A A F B                                                               M1236H B -- B A B                                                              M1238H G A G G B                                                               M1401E A A B B E                                                               M1406H A A A A B                                                               M1447H A A A A A                                                               M1B725E C B H H B                                                              M2297H C D C C C                                                               M2298E B A E F A                                                               M2402H D D D E E                                                               M3247E D -- B A D                                                              M3257S A -- A C A                                                              M3296H C A A C A                                                               M3432H H D D G D                                                               M3446S C -- F F C                                                              M3457E C D D D D                                                               M4386H D B I D B                                                               M4396E B A A C B                                                               M4444H A A A D A                                                               M4451H B A C A --                                                              M4UMC19H A C C A C                                                             M4UMC31S B -- B D B                                                            M5213S A C A A A                                                               M5288S B -- B B A                                                              M5295E C C B C C                                                               M5408H A A A A A                                                               M5409H C D A D C                                                               M5579S A -- A B A                                                              M5UMC95H B C C C C                                                             M6223E D C C A C                                                               M6252H A A A A A                                                               M6280H G F G F I                                                               M6373E D A A E A                                                               M7263E B C A B C                                                               M7392S C -- B B B                                                              M7455H B B C B B                                                               M8107S A B D E F                                                               M8110S A A A B C                                                               M8114E D D C E D                                                               M8268H A D C B C                                                               M8585H B -- B B B                                                              M8B2369S D -- B B D                                                            M8UMC48E D C C A C                                                             M9209E A A A A A                                                               M9211E A H C A A                                                               M9266S G -- A G G                                                              M9B713S A B B B                                                                M2UMC34H B B B B --                                                            M6UMC85H A C A A --                                                            M9UMC94H A A E E --                                                            M3UM121X D E D D --                                                            MOUMC130 A -- A A --                                                         ______________________________________                                          *Probes used to detect RFLPs are from Linkage Genetics, 1515 West 2200         South, Suite C, Salt Lake City, Utah 84119.                              

                  TABLE 33                                                         ______________________________________                                         RFLP PROFILE OF RQAAB                                                            Probe/Enzyme Combination                                                                        ROAA8   2FADB  FBLL  LH132                                  ______________________________________                                         M0264H         E       G        G     G                                          M0306H A A A A                                                                 M0445E D B B B                                                                 M1120S C B D B                                                                 M1234H B K D D                                                                 M1401E C C A A                                                                 M1406H B A A A                                                                 M1447H B D A D                                                                 M1B725E C C B B                                                                M2297H G A A A                                                                 M2298E C B B B                                                                 M2402H E E E E                                                                 M3296H C A A F                                                                 M3432H H I H H                                                                 M3457E E E E F                                                                 M4386H B B D D                                                                 M4396E A H A A                                                                 M4444H A B A B                                                                 M4451H B B C C                                                                 M4UMC19H A A B B                                                               M4UMC31E B C C C                                                               M5213S D A A A                                                                 M5288E A C C --                                                                M5295E D D D D                                                                 M5408H A A A A                                                                 M5409H A C C C                                                                 M5UMC95H B A A A                                                               M6223E C C C C                                                                 M6252H A E E E                                                                 M6280H T D B B                                                                 M6373E A E E E                                                                 M7263E A C C A                                                                 M7391H A C A C                                                                 M7455H A A B A                                                                 M8107S C F C C                                                                 M8110S C C D C                                                                 M8114E E B B B                                                                 M8268H J B B B                                                                 M8UMC48E J C A A                                                               M9209E C C A A                                                                 M9211E G C G C                                                                 M2UMC34H E -- -- E                                                             M6UMC85H A -- -- A                                                             M9B713S B A A A                                                                M9UMC94H B -- -- B                                                             M3UM121X G -- -- C                                                             MOUMC130 A -- -- H                                                           ______________________________________                                          *Probes used to detect RFLPs are from Linkage Genetics, 1515 West 2200         South, Suite C, Salt Lake City, Utah 84119.                              

                  TABLE 34                                                         ______________________________________                                         INBRED RFLP PROFILE OF FBPN                                                      Probe/Enzyme                                                                   Combination FBPN 2FACC 2FADB FBLL LH132                                      ______________________________________                                         M0264H    G       G        G     G      G                                        M0306H A A A A A                                                               M1234H D D K D D                                                               M1238H F A A F F                                                               M1447H B B D A D                                                               M1B725E B B C B B                                                              M2239H C A --  -- --                                                           M2297H A A A A A                                                               M2298E B B B B B                                                               M2402H E E E E E                                                               M3212S B A -- -- --                                                            M3247E B B -- -- --                                                            M3257S C B -- E --                                                             M3296H F A A A F                                                               M3446S F B -- -- --                                                            M3457E E E E E F                                                               M4386H D B B D D                                                               M4396E A H H A A                                                               M4444H A B B A B                                                               M4451H C B B C C                                                               M4UMC19H B A A B B                                                             M4UMC31E C C C C C                                                             M4UMC31S A A -- -- --                                                          M5213S A A A A A                                                               M5288S A A C C --                                                              M5295E D D D D D                                                               M5408H A A A A A                                                               M5409H C A C C C                                                               M5579S B B -- -- --                                                            M5UMC95H A A A A A                                                             M6223E C C C C C                                                               M6280H B E D B B                                                               M6373E E E E E E                                                               M7263E A C C C A                                                               M7391H A C C A C                                                               M7392S C C -- -- --                                                            M7455H B A A B A                                                               M8110S C C C D C                                                               M8114E B B B B B                                                               M8268H B B B B B                                                               M8585H A A -- -- --                                                            M8B2369S D D -- -- --                                                          M8UMC48E A C C A A                                                             M9209E A C C A A                                                               M9211E G C C G C                                                               M9266S A A -- -- --                                                            M2UMC34H E -- -- -- E                                                          M6UMC85H A -- -- -- A                                                          M9UMC94H B -- -- -- B                                                          M3UM121X C -- -- -- C                                                          MOUMC130 H -- -- -- H                                                        ______________________________________                                          *Probes used to detect RFLPs are from Linkage Genetics, 1515 West 2200         South, Suite C, Salt Lake City, Utah 84119.                              

                  TABLE 35                                                         ______________________________________                                         RFLP PROFILE OF 3AZA1                                                            Probe/Enzyme                                                                   Combination 3AZA1 91BMA2 AQA3 FBLA                                           ______________________________________                                         M0264H      G       L          D     D                                           M0445E B B C C                                                                 M1120S D D F F                                                                 M1234H E E E E                                                                 M1238H F A K A                                                                 M1401E C B A --                                                                M1406H B B B B                                                                 M1447H E E B B                                                                 M1B725E C -- C H                                                               M2297H E C -- B                                                                M2402H E E E C                                                                 M3212S B A A A                                                                 M3247E D B D --                                                                M3296H D D D B                                                                 M3432H A -- A F                                                                M3446S C F C B                                                                 M3457E E E E E                                                                 M4386H A B A B                                                                 M4396E F F F B                                                                 M4444H A A A A                                                                 M4451H B B B B                                                                 M4UMC19H A A A B                                                               M4UMC31S B B D D                                                               M5213S B B A B                                                                 M5295E C D C D                                                                 M5408H A A A A                                                                 M5409H A A A C                                                                 M5579S B C B B                                                                 M5UMC95H B -- B B                                                              M6223E C -- C C                                                                M6252H D E E D                                                                 M6280H A A A A                                                                 M6373E A A A A                                                                 M7263E A A A A                                                                 M7391H A A A A                                                                 M7392S B B C --                                                                M7455H C C C --                                                                M8110S C D C A                                                                 M8114E E E E E                                                                 M8268H B B B J                                                                 M8585H A B A --                                                                M8B2369S B D D --                                                              M8UMC48E C C C C                                                               M9209E A A A A                                                                 M9211E F -- G F                                                                M9266S C -- C C                                                                M9B713S B B B B                                                              ______________________________________                                          *Probes used to detect RFLPs are from Linkage Genetics, 1515 West 2200         South, Suite C, Salt Lake City, Utah 84119.                              

Another aspect of this invention is a plant genetic complement characterized by a genetic isozyme tying profile. Isozymes are forms of proteins that are distinguishable, for example, on starch gel electrophoresis, usually by charge and/or molecular weight. The techniques and nomenclature for isozyme analysis are described in, Stuber et al. (1988), which is incorporated by reference.

A standard set of loci can be used as a reference set. Comparative analysis of these loci is used to compare the purity of hybrid seeds, to assess the increased variability if hybrids compared to inbreds, and to determine the identity of seeds, plants, and plant parts. In this respect, an isozyme reference set can be used to develop genotypic "fingerprints."

Tables 36 through 39 list the identifying numbers of the alleles at isozyme loci types. Tables 36 through 39 represent the exemplary genetic isozyme typing profiles for 85CS01, RQAA8, FBPN, and 3AZA1, respectively.

                  TABLE 36                                                         ______________________________________                                         ISOZYME PROFILE FOR 85CS01                                                                ISOZYME ALLELE                                                      LOCUS      85CS01   LAC29   LH212 LH51  MM501D                                 ______________________________________                                         Acph-1     3        4       4     3     4                                        Adh-1 4 4 4 4 --                                                               Cat-3 9 -- -- 9 9                                                              Got-1 6 4 -- 4 4                                                               Got-2 4 4 4 4 --                                                               Got-3 4 4 4 4 --                                                               Idh-1 4 4 4 4 4                                                                Idh-2 4 4 6 4 4                                                                Mdh-1  6* 6  6*  6*  6*                                                        Mdh-2 6 6 6 6 6                                                                Mdh-3 16  16  16  16  16                                                       Mdh-4 12  12  12  12  12                                                       Mdh-5 12  12  12  12  12                                                       6-Pgd-1   3.8 2   3.8   3.8 2                                                  6-Pgd-2 5 5 5 5 5                                                              Pgm-1 9 9 9 9 9                                                                Pgm-2 4 4 4 8 4                                                                Phi-1 5 4 4 4 4                                                                # of seeds analyzed: 12  6 6 12  6                                           ______________________________________                                          *Allele is probably a 6, but a null cannot be ruled out.                 

                  TABLE 37                                                         ______________________________________                                         ISOZYME PROFILE OF RQAA8                                                                 ISOZYME ALLELE                                                       LOCUS     RQAA8   2FADB      FBLL  LH132                                       ______________________________________                                         Acph-1    4       2/3        2     2                                             Adh-1 4 --  -- 4                                                               Cat-3 9 9 9 9                                                                  Got-1 4 4 4 4                                                                  Got-2 2 4 4 4                                                                  Got-3 4 4 4 4                                                                  Idh-1 4 4 4 4                                                                  Idh-2 4 4/6 4 4                                                                Mdh-1  6*  6* 6 6                                                              Mdh-2 6   3.5   3.5   3.5                                                      Mdh-3 16  16  16  16                                                           Mdh-4 12  12  12  12                                                           Mdh-5 12  12  12  12                                                           6-Pgd-1 2 2/3.8   3.8   3.8                                                    6-Pgd-2   2.8 5 5 5                                                            Pgm-1 9 9 9 9                                                                  Pgm-2 4 4 4 4                                                                  Phi-1 4 4 4 4                                                                  # of seeds 6 6 24  12                                                          analyzed:                                                                    ______________________________________                                          *Allele is probably a 6, but a null cannot be ruled out.                 

                  TABLE 38                                                         ______________________________________                                         ISOZYME PROFILE OF FBPN                                                                ISOZYME ALLELE                                                         LOCUS   FBPN     2FACC    2FADB  FBLL   LH132                                  ______________________________________                                         Acph-1  2        2        2      2      2                                        Adh-1 4 4 --  -- 4                                                             Cat-3 9 9 9 9 9                                                                Got-1 4 4 4 4 4                                                                Got-2 4 4 4 4 4                                                                Got-3 4 4 4 4                                                                  Idh-1 4 4 4 4 4                                                                Idh-2 4 6 6 4 4                                                                Mdh-1 6 6 6 6 6                                                                Mdh-3 16  16  16  16  16                                                       Mdh-4 12  12  12  12  12                                                       Mdh-5 12  12  12  12  12                                                       6-Pgd-2 5 5 5 5 5                                                              Pgm-1 9 9 9 9 9                                                                Pgm-2 4 4 4 4 4                                                                Phi-1 4 4 4 4 4                                                                # of seeds 24  12  6 24  12                                                    Analyzed:                                                                    ______________________________________                                    

                  TABLE 39                                                         ______________________________________                                         ISOZYME PROFILE OF 3AZA1                                                                   ISOZYME ALLELE                                                     LOCUS       3AZA1    91BMA2    AOA3   FBLA                                     ______________________________________                                         Acph-1      4        2         4      4                                          Adh-1 4 4 --  --                                                               Cat-3 9 9 -- --                                                                Got-1 4 4 4 4                                                                  Got-2 4 4 4 2                                                                  Got-3 4 4 4 4                                                                  Idh-1 4 4 4 4                                                                  Idh-2 6 6 6 6                                                                  Mdh-1  6*  6* 6 6                                                              Mdh-2 6 6 3 3                                                                  Mdh-3 16  16  16  16                                                           Mdh-4 12  12  12  12                                                           Mdh-5 12  12  12  12                                                           6 Pgd-1   3.8   3.8   3.8   3.8                                                6 Pgd-2 5 5 5 5                                                                Pgm-1 9 9 9 9                                                                  Pgm-2 4 4 4 4                                                                  Phi-1 4 4 5 4                                                                  # of seeds analyzed: 12  6 6 6                                               ______________________________________                                          *Allele is probably a 6, but a null cannot be ruled out.                 

The present invention also contemplates a hybrid genetic complement formed by the combination of a haploid genetic complement of the corn plant 85CS01, RQAA8, FBPN, or 3AZA1, with a haploid genetic complement of a second corn plant. Means for combining a haploid genetic complement from any of the foregoing inbreds with another haploid genetic complement can be any method hereinbefore for producing a hybrid plant from 85CS01, RQAA8, FBPN, or 3AZA1. It is also contemplated that a hybrid genetic complement can be prepared using in vitro regeneration of a tissue culture of a hybrid plant of this invention.

A hybrid genetic complement contained in the seed of a hybrid derived from 85CS01, RQAA8, FBPN, or 3AZA1 is a further aspect of this invention. Exemplary hybrid genetic complements are the genetic complements of the hybrids 1103157, 2002116, 2002576, and 2026021.

Tables 40 through 43 show the identifying numbers of the alleles for the hybrids 1103157, 2002116, 2002576, and 2026021, which are exemplary RFLP genetic marker profiles for hybrids derived from the inbreds of the present invention.

Table 40 concerns 1103157, which has 85CS01 as one inbred parent. Table 41 concerns 2002116, which has RQAA8 as one inbred parent. Table 42 concerns 2002576, which has FBPN as one inbred parent. Table 43 concerns 2026021, which has 3AZA1 as one inbred parent.

                  TABLE 40                                                         ______________________________________                                         RFLP PROFILE FOR 1103157                                                             Probe/Enzyme Combination                                                                       Allelic Pair                                             ______________________________________                                         M0306H            CE                                                             M1120S BF                                                                      M1234H DD                                                                      M1236H AB                                                                      M1238H FG                                                                      M1401E AA                                                                      M1406H AA                                                                      M1447H AB                                                                      M1B725E BC                                                                     M2297H AC                                                                      M2298E BB                                                                      M2402H CD                                                                      M3247E BD                                                                      M3257S AC                                                                      M3296H AC                                                                      M3446S CF                                                                      M3457E CF                                                                      M4386H DD                                                                      M4396E AB                                                                      M4444H AB                                                                      M4451H BC                                                                      M4UMC19H AB                                                                    M4UMC31S AB                                                                    M5213S AA                                                                      M5288S AB                                                                      M5295E CD                                                                      M5408H AA                                                                      M5409H CC                                                                      M5579S AA                                                                      M5UMC95H BC                                                                    M6223E CD                                                                      M6252H AE                                                                      M6280H BG                                                                      M6373E DE                                                                      M7263E BC                                                                      M7391H AC                                                                      M7392S CC                                                                      M7455H AB                                                                      M8107S AC                                                                      M8110S AC                                                                      M8114E BD                                                                      M8268H AB                                                                      M8585H AB                                                                      M8B2369S DD                                                                    M8UMC48E AD                                                                    M9209E AA                                                                      M9211E AC                                                                      M9266S AG                                                                      M9B713S AA                                                                     M2UMC34H BE                                                                    M6UMC85H AA                                                                    M9UMC94H AB                                                                    M3UM121X CD                                                                    M0UMC130 AH                                                                  ______________________________________                                          *Probes used to detect RFLPs are from Linkage Genetics, 1515 West 2200         South, Suite C, Salt Lake City, Utah 84119.                              

                  TABLE 41                                                         ______________________________________                                         RFLP PROFILE FOR 2002116                                                             Probe/Enzyme Combination                                                                       Allelic Pair                                             ______________________________________                                         M0264H            EE                                                             M0306H AA                                                                      M0445E DD                                                                      M1401E AC                                                                      M1406H BB                                                                      M1447H BB                                                                      M1B725E CF                                                                     M2239H AD                                                                      M2297H CG                                                                      M2298E CC                                                                      M2402H EE                                                                      M3212S BC                                                                      M3247E DF                                                                      M3257S BC                                                                      M3432H FH                                                                      M3446S FF                                                                      M3457E AE                                                                      MM4386H AB                                                                     M4396E AH                                                                      M4444H AA                                                                      M4451H BG                                                                      M4UMC19H AA                                                                    M4UMC31S BD                                                                    M5213S BD                                                                      M5295E CD                                                                      M5408H AA                                                                      M5409H AC                                                                      M5UMC45H BD                                                                    M6223E CC                                                                      M6252H AA                                                                      M6280H CT                                                                      M6373E AA                                                                      M7263E AB                                                                      M7391H AC                                                                      M7392S BC                                                                      M7455H AA                                                                      M8107S CD                                                                      M8110S CC                                                                      M8114E EE                                                                      M8268H JK                                                                      M8585H DD                                                                      M8B2369S BD                                                                    M8UMC48E CJ                                                                    M9209E AC                                                                      M9211E CG                                                                      M9266S CC                                                                      M9B713S BB                                                                     M2UMC34H EE                                                                    M6UMC85H AA                                                                    M9UMC94H BB                                                                    M3UM121X CG                                                                    M0UMC130 AA                                                                  ______________________________________                                          *Probes used to detect RFLPs are from Linkage Genetics, 1515 West 2200         South, Suite C, Salt Lake City, Utah 84119.                              

                  TABLE 42                                                         ______________________________________                                         RFLP PROFILE FOR 2002576                                                             Probe/Enzyme Combination                                                                       Allelic Pair                                             ______________________________________                                         M0264H            EG                                                             M0306H AA                                                                      M1234H DE                                                                      M1238H EF                                                                      M1406H AB                                                                      M1447H AB                                                                      M1B725E BH                                                                     M2239H AC                                                                      M2297H AC                                                                      M2298E BC                                                                      M2402H EE                                                                      M3212S BC                                                                      M3257S BC                                                                      M3296H EF                                                                      M3446S CF                                                                      M3457E EE                                                                      M4386H AD                                                                      M4396E AH                                                                      M4444H AG                                                                      M4451H BC                                                                      M4UMC19H AB                                                                    M4UMC31E CC                                                                    M4UMC31S AD                                                                    M5213S AA                                                                      M5295E CD                                                                      M5408H AA                                                                      M5409H CC                                                                      M5579S AB                                                                      M5UMC95H AD                                                                    M6252H AE                                                                      M6280H BC                                                                      M7263E AB                                                                      M7391H AC                                                                      M7392S BC                                                                      M7455H AB                                                                      M8114E BE                                                                      M8268H BB                                                                      M8UMC48E AC                                                                    M9209E AA                                                                      M9211E CG                                                                      M9266S AC                                                                      M9B713S AB                                                                     M2UMC34H EE                                                                    M6UMC85H AC                                                                    M9UMC94H BB                                                                    M3UM121X CD                                                                    M0UMC130 CH                                                                  ______________________________________                                          *Probes used to detect RFLPs are from Linkage Genetics, 1515 West 2200         South, Suite C, Salt Lake City, Utah 84119.                              

                  TABLE 43                                                         ______________________________________                                         RFLP PROFILE FOR 2026021                                                             Probe/Enzyme Combination                                                                       Allelic Pair                                             ______________________________________                                         M0264H            GH                                                             M0445E AB                                                                      M1120S DE                                                                      M1234H EI                                                                      M1236H AC                                                                      M1238H EF                                                                      M1401E AC                                                                      M1406H BB                                                                      M1B725E BC                                                                     M2239H AC                                                                      M2297H CE                                                                      M2298E CF                                                                      M2402H EE                                                                      M3212S AB                                                                      M3247E BD                                                                      M3257S BC                                                                      M3296H DE                                                                      M3432H AH                                                                      M3446S CC                                                                      M3457E AE                                                                      M4386H AD                                                                      M4396E FH                                                                      M4444H AA                                                                      M4451H BB                                                                      M4UMC19H AA                                                                    M4UMC31S BD                                                                    M5213S BB                                                                      M5288S AB                                                                      M5295E CC                                                                      M5409H AC                                                                      M5UMC95H AB                                                                    M6223E BC                                                                      M6252H AD                                                                      M6280H AG                                                                      M6373E AE                                                                      M7263E AB                                                                      M7391H AC                                                                      M7392S BC                                                                      M7455H BC                                                                      M8114E BE                                                                      M8268H AB                                                                      M8585H AA                                                                      M8B2369S BD                                                                    M8UMC48E CC                                                                    M9209E AA                                                                      M9211E CF                                                                      M9266S BC                                                                      M9B713S BC                                                                     M2UMC34H DD                                                                    M9UMC94H BB                                                                    M3UM121X CH                                                                  ______________________________________                                          *Probes used to detect RFLPs are from Linkage Genetics, 1515 West 2200         South, Suite C, Salt Lake City, Utah 84119.                              

The exemplary hybrid genetic complements of hybrids 1103157, 2002116, 2002576, and 2026021, may also be assessed by genetic isozyme typing profiles using a standard set of loci as a reference set, using, e.g., the same, or a different, set of loci to those described above. Tables 44 through 47 list the identifying numbers of the alleles at isozyme loci types and present the exemplary genetic isozyme typing profiles for the hybrids 1103157, 2002116, 2002576, and 2026021, which are exemplary hybrids derived from the inbreds of the present invention.

Table 44 concerns 1103157, which has 85CS01 as one inbred parent. Table 45 concerns 2002116, which has RQAA8 as one inbred parent. Table 46 concerns 2002576, which has FBPN as one inbred parent. Table 47 concerns 2026021, which has 3AZA1 as one inbred parent.

                  TABLE 44                                                         ______________________________________                                         ISOZYME GENOTYPE FOR HYBRID 1103157                                                    LOCUS   ISOZYME ALLELE                                                 ______________________________________                                         Acph-1      2/3; 3/4                                                             Adh-1 4                                                                        Got-1 4/6                                                                      Got-2 4                                                                        Got-3 4                                                                        Idh-1 4                                                                        Idh-2 4                                                                        Mdh-1 6                                                                        Mdh-2 3.5/6                                                                    Mdh-3 16                                                                       Mdh-4 12                                                                       Mdh-5 12                                                                       6-Pgd-1   3.8                                                                  6-Pgd-2 5                                                                      Pgm-1 9                                                                        Pgm-2 4                                                                        Phi-1 4/5                                                                    ______________________________________                                    

                  TABLE 45                                                         ______________________________________                                         ISOZYME GENOTYPE FOR HYBRID 2002116                                                    LOCUS   ISOZYME ALLELE                                                 ______________________________________                                         Acph-1      2/4                                                                  Adh-1 4                                                                        Got-1 4                                                                        Got-2 2/4                                                                      Got-3 4                                                                        Idh-1 4                                                                        Idh-2 4/6                                                                      Mdh-1 6                                                                        Mdh-2 3.5/6                                                                    Mdh-3 16                                                                       Mdh-4 12                                                                       Mdh-5 12                                                                       6-Pgd-1 2/3.8                                                                  6-Pgd-2 2.8/5                                                                  Pgm-1 9                                                                        Pgm-2 4                                                                      ______________________________________                                    

                  TABLE 46                                                         ______________________________________                                         ISOZYME GENOTYPE FOR HYBRID 2002576                                                    LOCUS   ISOZYME ALLELE                                                 ______________________________________                                         Acph-1      2                                                                    Adh-1 4                                                                        Got-1 4                                                                        Got-2 4                                                                        Got-3 4                                                                        Idh-1 4                                                                        Idh-2 4/6                                                                      Mdh-1 6                                                                        Mdh-3 16                                                                       Mdh-4 12                                                                       Mdh-5 12                                                                       6-Pgd-2 5                                                                      Pgm-1 9                                                                        Pgm-2 4                                                                        Phi-1 4                                                                      ______________________________________                                    

                  TABLE 47                                                         ______________________________________                                         ISOZYME GENOTYPE FOR HYBRID 2026021                                                    LOCUS   ISOZYME ALLELE                                                 ______________________________________                                         Acph-1      4                                                                    Adh-1 4                                                                        Got-1 4                                                                        Got-2 4                                                                        Got-3 4                                                                        Idh-1 4                                                                        Idh-2 6                                                                        Mdh-1 1/6                                                                      Mdh-2 3.5/6                                                                    Mdh-3 16                                                                       Mdh-4 12                                                                       Mdh-5 12                                                                       6-Pgd-1   3.8                                                                  6-Pgd-2 5                                                                      Pgm-1 9                                                                        Pgm-2 4                                                                        Phi-1 4                                                                      ______________________________________                                    

All of the compositions and methods disclosed and claimed herein can be made and executed without undue experimentation in light of the present disclosure. While the compositions and methods of this invention have been described in terms of the foregoing illustrative embodiments, it will be apparent to those of skill in the art that variations, changes, modifications and alterations may be applied to the composition, methods, and in the steps or in the sequence of steps of the methods described herein, without departing from the true concept, spirit and scope of the invention. More specifically, it will be apparent that certain agents that are both chemically and physiologically related may be substituted for the agents described herein while the same or similar results would be achieved. All such similar substitutes and modifications apparent to those skilled in the art are deemed to be within the spirit, scope and concept of the invention as defined by the appended claims.

REFERENCES

The following references, to the extent that they provide exemplary procedural or other details supplementary to those set forth herein, are specifically incorporated herein by reference.

Armstrong & Green, "Establishment and Maintenance of Friable Embryogenic Maize Callus and the Involvement of L-Proline," Plant, 164:207-214, 1985.

Conger et al., "Somatic Embryogenesis from Cultured Leaf Segments of Zea Mays,"Plant Cell Reports, 6:345-347, 1987.

Duncan et al., "The Production of Callus Capable of Plant Regeneration from Immature Embryos of Numerous Zea Mays Genotypes," Plants, 165:322-332, 1985.

Fehr (ed.), Principles of Cultivar Development, Vol. 1: Theory and Technique, pp. 360-376, 1987.

Gaillard et al., "Optimization of Maize Microspore Isolation and Culture Condition for Reliable Plant Regeneration," Plant Cell Reports, 10(2):55, 1991.

Gordon-Kamm et al., "Transformation of Maize Cells and Regeneration of Fertile Transgenic Plants," The Plant Cell, 6:603-618, 1990.

Green & Rhodes, "Plant Regeneration in Tissue Cultures of Maize," Maize for Biological Research, Plant Molecular Biology Association, pp. 367-372, 1982.

Jense, "Chromosome Doubling Techniques in Haploids," Haploids and Higher Plants--Advances and Potentials, Proceedings of the First International Symposium, University of Guelph, Jun. 10-14, 1974.

Nienhuis et al., "Restriction Fragment Length Polymorphism Analysis of Loci Associated with Insect Resistance in Tomato," Crop Science, 27:797-803, 1987.

Pace et al., "Anther Culture of Maize and the Visualization of Embryogenic Microspores by Fluorescent Microscopy," Theoretical and Applied Genetics, 73:863-869, 1987.

Poehlman & Sleper (eds), Breeding Field Crops, 4th Ed., pp. 172-175, 1995.

Rao et al., "Somatic Embryogenesis in Glume Callus Cultures," Maize Genetics Cooperation Newsletter, Vol. 60, 1986.

Songstad et al. "Effect of 1-Aminocyclopropate-1-Carboxylic Acid, Silver Nitrate, and Norbornadiene on Plant Regeneration from Maize Callus Cultures,"Plant Cell Reports, 7:262-265, 1988.

Stuber et al., "Techniques and scoring procedures for starch gel electrophoresis of enzymes of maize C. Zea mays, L.," Tech. Bull., N. Carolina Agric. Res. Serv., Vol. 286, 1988.

Wan et al., "Efficient Production of Doubled Haploid Plants Through Colchicine Treatment of Anther-Derived Maize Callus," Theoretical and Applied Genetics, 77:889-892, 1989. 

What is claimed is:
 1. Inbred corn seed of the inbred corn plant designated RQAA8, a sample of said seed having been deposited under accession number PTA-301.
 2. The inbred corn seed of claim 1, further defined as an essentially homogeneous population of inbred corn seed designated RQAA8.
 3. The inbred corn seed of claim 1, further defined as essentially free from hybrid seed.
 4. A corn plant produced by growing the seed of claim
 1. 5. Pollen of the plant of claim
 4. 6. An ovule of the plant of claim
 4. 7. An essentially homogeneous population of corn plants produced by growing the seed of claim
 1. 8. A corn plant having all the physiological and morphological characteristics of the inbred corn plant RQAA8, a sample of the seed of said inbred corn plant RQAA8 having been deposited under accession number PTA-301.
 9. The corn plant of claim 8, further comprising a cytoplasmic factor conferring male sterility.
 10. A tissue culture of regenerable cells of inbred corn plant RQAA8, wherein the tissue regenerates plants having all the physiological and morphological characteristics of corn plant RQAA8, a sample of the seed of said corn plant RQAA8 having been deposited under accession number PTA-301.
 11. The tissue culture of claim 10, wherein the regenerable cells are embryos, meristematic cells, pollen leaves, anthers, roots, root tips, silk, flowers, kernels, ears, cobs, husks or stalks, or protoplastics therefrom.
 12. A corn plant regenerated from the tissue culture of claim 10, wherein said corn plant has all the physiological and morphological characteristics of corn plant RQAA8, a sample of the seed of said corn plant RQAA8 having been deposited under accession number PTA-301.
 13. An inbred corn plant cell of the plant of claim 8 having:(a) an RFLP genetic marker profile in accordance with the profile shown in Table 33; or (b) a genetic isozyme typing profile in accordance with the profile shown in Table
 37. 14. The inbred corn plant cell of claim 13, having an RFLP genetic marker profile in accordance with the profile shown in Table
 33. 15. The inbred corn plant cell of claim 13, having a genetic isozyme typing profile in accordance with the profile shown in Table
 37. 16. The inbred corn plant cell of claim 13, having an RFLP genetic marker profile and a genetic isozyme typing profile in accordance with the profiles shown in Tables 33 and
 37. 17. The inbred corn plant cell of claim 13, located within a corn plant or seed.
 18. A process of preparing corn seed, comprising crossing a first parent corn plant with a second parent corn plant, wherein said first or second corn plant is the inbred corn plant RQAA8, a sample of the seed of said inbred corn plant RQAA8 having been deposited under accession number PTA-301, wherein seed is allowed to form.
 19. The process of claim 18, further defined as a process of preparing hybrid corn seed, comprising crossing a first inbred corn plant with a second, distinct inbred corn plant, wherein said first or second inbred corn plant is the inbred corn plant RQAA8, a sample of the seed of said inbred corn plant RQAA8 having been deposited under accession number PTA-301.
 20. The process of claim 19, wherein crossing comprises the steps of:(a) planting in pollinating proximity seeds of said first and second inbred corn plants; (b) cultivating the seeds of said first and second inbred corn plants into plants that bear flowers; (c) emasculating the make flowers of said first or second inbred corn plant to produce an emasculated corn plant; (d) allowing cross-pollination to occur between said first and second inbred corn plants; and (e) harvesting seeds produced on said emasculated corn plant.
 21. The process of claim 20, further comprising growing said harvested seed to produce a hybrid corn plant.
 22. Hybrid corn seed produced by the process of claim
 19. 23. A hybrid corn plant produced by the process of claim
 21. 24. The hybrid corn plant of claim 23, wherein the plant is a first generation (F₁) hybrid corn plant.
 25. The corn plant of claim 8 further comprising a single gene conversion.
 26. The single gene conversion of the corn plant of claim 25, where the gene is a dominant allele.
 27. The single gene conversion of the corn plant of claim 25, where the gene is a recessive allele.
 28. The single gene conversion corn plant of claim 25, where the gene confers herbicide resistance.
 29. The single gene conversion of the corn plant of claim 25, where the gene confers insect resistance.
 30. The single gene conversion of the corn plant of claim 25, where the gene confers resistance to bacterial, fungal, or viral disease.
 31. The single gene conversion of the corn plant of claim 25, where the gene confers male sterility.
 32. The single gene conversion of the corn plant of claim 25, where the gene confers waxy starch.
 33. A population of seed consisting essentially of the seed of inbred corn plant RQAA8, a sample of the seed of said inbred corn plant RQAA8 having been deposited under accession number PTA-301.
 34. A purified population of seed of inbred corn plant RQAA8, a sample of the seed of said inbred corn plant RQAA8 having been deposited under accession number PTA-301.
 35. Seed of inbred corn plant RQAA8, wherein said seed is essentially free from hybrid seed, a sample of the seed of said inbred corn plant RQAA8 having been deposited under accession number PTA-301.
 36. The corn plant of claim 25, wherein the single gene was stably inserted into a corn genome by transformation. 